CN109754456B - Intelligent monitoring system for landscape lighting - Google Patents

Abstract

The invention provides a landscape lighting intelligent monitoring system, which comprises: 3D GIS map module: constructing a base map environment of the 3D GIS map, inheriting a graph management tool, and realizing the fusion of the 3D GIS map and a facility BIM model; 2D GIS map display module: displaying and drawing a plane map; the video monitoring module: performing data access and operation; the landscape lighting control module: controlling the landscape lighting; the energy consumption management module: and managing the energy consumption. The invention relates to an intelligent landscape lighting control system taking a city as a unit, which is designed according to an internet of things model, can perfectly integrate the whole city landscape lighting on a control platform through wired and wireless communication technologies, and can realize intelligent energy-saving management of the landscape lighting with the extra large size taking the city as a unit through real-time interconnection, remote control and management, remote monitoring and visual operation.

Description

Intelligent monitoring system for landscape lighting

Technical Field

The invention relates to landscape lighting monitoring management, in particular to a landscape lighting intelligent monitoring system. In particular to an intelligent monitoring system based on urban landscape illumination.

Background

The landscape lighting is a large-scale promotion project for night landscape lighting, the project scale is large, the implementation area span is large, the control requirement is high, and the landscape lighting control is highly required in both the technical aspect, the project implementation aspect and the management aspect. For example, when a city holds major events, the night scene illumination is guaranteed to operate reliably, and meanwhile, when the scene viewing passenger flow is crowded in a local area, the current passenger flow number, the passenger flow density and the future scene viewing passenger flow situation are automatically analyzed through image networking, intelligent identification and data analysis in sections, so that a management department can conveniently adjust the scene illumination scheme and mode, coordinate the evacuation scene viewing passenger flow, and avoid accident potential. The method is characterized by comprising the steps of performing multivariate analysis on operation data, illumination data, energy consumption data, lighting rate data, passenger flow data and the like, grasping the public viewing preference and the timely landscape lighting scheme, properly adjusting the use ratio of lighting resources, energy resources and communication flow according to the use condition and trend, and improving the resource use efficiency and the service quality.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent landscape lighting monitoring system.

The landscape lighting intelligent monitoring system provided by the invention comprises any one or more of the following modules:

3D GIS map module: constructing a base map environment of the 3D GIS map, inheriting a graph management tool, and realizing the fusion of the 3D GIS map and a facility BIM model;

2D GIS map display module: displaying and drawing a plane map;

the video monitoring module: performing data access and operation;

the landscape lighting control module: controlling landscape lighting;

the energy consumption management module: and managing the energy consumption.

Preferably, the 3D GIS map module includes:

the map range management module: for a set object, replacing a corresponding model with first detail fineness on a 3D GIS basic map by adopting BIM modeling with second detail fineness, wherein the second detail fineness is higher than the first detail fineness; the 3D GIS map comprises a 3D GIS base map, wherein the 3D GIS base map is to include a 3D mapping map within a city range, providing descriptions of objects with a first fine detail, wherein the objects comprise any one or more of a road, a water bank, a revetment, a dock, a building;

many picture layers multizone show module: performing fusion display of a plurality of layers of the 3D GIS map, wherein the layers comprise layers containing any one or more objects of buildings, roads, bridges, greenbelts and water systems; allowing a user to select a display or hidden layer;

the distributed application acceleration module: the display acceleration of the 3D GIS map after the BIM building model object is superposed is realized through a model dynamic combination and/or LOD layering mode; according to the current display scale, corresponding hierarchical data is called, a corresponding coarse mode is adopted for a model far away from the camera, the display pressure is reduced, and a corresponding fine mode is adopted for a model close to the camera; automatically loading map data in a viewport range, and unloading invisible map data according to the size of a memory space;

the display module is developed by fusing the real scenes in the key areas: based on a 3D GIS map, combining with real-time collected data, performing visual management on set landscape lighting in a key area, and presenting landscape lighting on-off states, operation scenes, comprehensive working conditions and statistical data; the real-time acquisition data comprises any one or more of media display data and video monitoring data;

the landscape lighting state live-action fusion display module: the method comprises the steps of acquiring the working states of a current landscape lighting lamp and a terminal in real time through a data interface, dynamically rendering a 3D GIS map and a BIM model according to data contents, and simulating and displaying a landscape lighting effect, wherein the data contents comprise any one or more contents of lamp types, parameters, control loop states and single lamp RGBW channel values;

wherein, the landscape lighting state live-action fusion display module comprises the following modules:

the dynamic scene live-action fusion display module: acquiring a release content graph of a current multimedia display screen in real time; the issued content graph corresponds to the light control nodes on the BIM through graph matching, and the working condition of the multimedia display screen is synchronously reflected by controlling the brightness and/or color of the corresponding light control nodes;

the video monitoring image live-action fusion display module: the method comprises the steps that a streaming media platform is connected, video images of any video monitoring point in a city are called through a streaming media management, playback and holder control interface, and the video images are displayed in a 3D GIS map scene in an overlapping mode;

preferably, the 2D GIS map display module includes the following modules:

the map data acquisition module: importing data of a two-dimensional map into the map to form map data; wherein the data of the two-dimensional map comprises any one or more of shp, mif, tile map and satellite image;

the map data management module: providing a map data release service through a map service program of a server, and automatically acquiring and releasing map data of a corresponding space according to a request of a client;

the map data processing module: processing the map data;

the map data processing module comprises the following modules:

a graphics scaling module: carrying out magnification and reduction operations on a region designated by a client;

the graph smooth roaming module: the method provides a smooth roaming function for a user and realizes seamless and non-refreshing visual effect;

layer switch control module: displaying/hiding the specified layer;

navigation chart module: navigating the map to the whole map range by using the navigation map, and responding to the positioning of the user;

the vector map object drawing module: support dynamic rendering of a variety of vector map object elements, including any one or any more of text, markup, lines, circles, ellipses, polygons, dynamic lines;

a mark aggregation module: when the map is zoomed, automatically adjusting the density relation avoiding effect of the display mark according to the scale of the current window, and marking the number of overlapped marks after avoiding blanking.

Preferably, the video monitoring module supports C/S and B/S clients simultaneously for data access and operation; all the authorities of each operator are authorized according to the system setting during login, and each operator can only see and operate the resources and functions with the authority; authorizations enable configuration of permissions for devices, users and groups of users; the system has the functions of real-time monitoring, picture switching, control of a cradle head, video recording and playback, and video monitoring of equipment inspection, monitoring equipment management, monitoring control management, user management, log management and asset management; through the butt joint with software and hardware interface, can realize the view illumination linkage, include: real-time browsing of monitored images, snapshot and capture, picture round-robin, grouping round-robin, instant playback, pan-tilt control and electronic amplification.

Preferably, the landscape lighting control module comprises the following modules:

single loop test module: the method comprises the steps of carrying out real-time test on a single loop aiming at each loop, and distinguishing various lamp lighting modes and scene control modes by the editing function of the lighting scene of each loop and the setting function of the lighting condition of each loop;

multi-loop combined test module: according to a user instruction, a plurality of loops are selected in a user-defined mode to carry out unified testing, and the editing function of the whole lighting scene of the loop group and the setting function of the lighting condition are carried out;

the multi-stage control and management module: carrying out monomer sub-control, regional linkage and one-key master control;

scene mode setting and editing module: setting up normal lighting scene modes of weekdays, weekends and festivals, automatically executing the normal lighting scene modes after setting, and performing custom editing on each scene parameter or adding and deleting the scene modes according to instructions of a user;

the matrix centralized control module: unified control of a plurality of projects is achieved through centralized control, the projects to be managed and controlled in a centralized mode are selected according to the instruction of a user and the lighting requirement, and a corresponding scene mode is selected;

the fault analysis and alarm module: carrying out fault analysis and alarm; the method comprises the following steps of (1) providing an equipment offline alarm; the single-loop undervoltage alarm of the landscape lighting electric control cabinet is provided; the single-loop overvoltage alarm of the landscape lighting electric control cabinet is provided; the single-loop overload alarm of the landscape lighting electric control cabinet is provided; the single-loop current abnormity warning of the landscape lighting electric control cabinet is provided; the monitoring landscape lighting electric control cabinet abnormal door opening alarm is provided; providing an equipment initialization guide; switching the equipment to a controlled mode; display device IP and port; displaying the current instruction and the instruction updating time; displaying the illumination intensity updating time; displaying longitude, latitude, temperature and temperature updating time; and displaying the working state and the updating time.

Preferably, the information managed by the energy consumption management module includes:

data content: the current, the voltage, the active power and the reactive power of the landscape lighting main loop and the current, the voltage, the active power and the reactive power of the landscape lighting sub-loop are respectively controlled by the control circuit; global, or partition level, real-time data;

global energy consumption real-time monitoring data: collecting, monitoring and displaying the overall energy consumption condition of landscape lighting, monitoring the real-time energy consumption condition of the landscape lighting of the city in real time by summarizing the energy consumption data of each lighting subarea and lighting buildings, and displaying the related data to users;

and (3) real-time monitoring data of partition energy consumption: monitoring the energy consumption of the subareas, and using conditions of total energy consumption and shunt energy consumption of the landscape lighting subsystem and the building;

energy consumption analysis data: energy consumption data of the lighting assets are counted and analyzed, and energy consumption comparison is combined; the energy consumption calculation, statistics and analysis of the landscape lighting subareas, buildings and loops are realized, and the functions of subarea and time-sharing statistics and comparative analysis are performed according to areas and time, so that a basis is provided for lighting energy conservation and emission reduction, energy consumption cost regulation and power consumption subsidy;

energy consumption data chart display data: and the displayed data is realized through the regional energy consumption data and the landscape facility according to the annual, monthly and daily data.

Preferably, the 3D GIS map module comprises a distributed application acceleration module; in the distributed application acceleration module:

firstly, dynamically combining simplified textures through a model to reduce the data volume of the model;

then the LOD dynamically loads the batch model and adds a fast index and an integral description of the data set;

corresponding hierarchical data are automatically called according to the current display scale through model dynamic merging and LOD dynamic loading batch models, corresponding rough models are adopted for models far away from each other, corresponding fine models are adopted for models near to each other, meanwhile, map data in a view port range are automatically loaded, and invisible map data are intelligently unloaded according to the size of a memory space.

Compared with the prior art, the invention has the following beneficial effects:

the invention relates to an intelligent landscape lighting control system taking cities as units, which is designed according to an Internet of things model, can perfectly integrate the whole urban landscape lighting on a control platform through wired and wireless communication technologies, can realize intelligent energy-saving management of landscape lighting with super large volume by taking cities as a unit through real-time interconnection, remote control and management, remote monitoring and visual operation, and plays an important role in promoting the improvement of night scene display power, landscape control power and emergency guarantee power in the intelligent energy-saving technology of landscape lighting at home and abroad. Meanwhile, the intelligent, energy-saving and smart city management integration of the urban lighting control system is realized by internet thinking and internet of things technology, the intelligent, energy-saving, service and economic values of the smart city management are realized, meanwhile, big data analysis is carried out through collected data, scientific basis is provided for decision making of city managers, the intelligent, energy-saving, service and economic values of the smart city management are met, the inevitable trend of modern urban lighting development is met, the developing necessity is possessed, and the formed technical achievement can greatly promote the construction process of the smart city.

In addition, the invention can simplify the texture by dynamic combination of the models to greatly reduce the data volume of the models, has numerous texture maps and different sizes of complex building models, not only improves the network transmission time, but also increases the loading and rendering batches of the local models and reduces the real-time rendering efficiency of the three-dimensional scene. And then the LOD dynamically loads the batch model and adds a quick index and integral description of a data set, so that the entity data volume needing to be processed in a rendering cycle is reduced, the BIM building model loading efficiency is finally improved, and the smooth display effect is achieved. The system can dynamically merge models and dynamically load LOD (level of detail) batch models to automatically call corresponding hierarchical data according to a current display scale, corresponding rough models are adopted for models far away from each other, corresponding fine models are adopted for models near to each other, system display pressure is reduced, meanwhile, map data in a view port range are automatically loaded, invisible map data are intelligently unloaded according to the size of a memory space, and the whole display efficiency and response speed are improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic diagram of the framework of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that variations and modifications can be made by persons skilled in the art without departing from the concept of the invention. All falling within the scope of the invention.

The landscape lighting intelligent monitoring system provided by the invention comprises any one or more of the following modules:

3D GIS map module: constructing a base map environment of the 3D GIS map, inheriting a graphic management tool, and realizing the fusion of the 3D GIS map and a facility BIM model;

2D GIS map display module: displaying and drawing a plane map;

the video monitoring module: performing data access and operation;

the landscape lighting control module: controlling the landscape lighting;

the energy consumption management module: and managing the energy consumption.

The 3D GIS map module comprises:

the map range management module: for a set object, replacing a corresponding model with first detail fineness on a 3D GIS basic map by adopting BIM modeling with second detail fineness, wherein the second detail fineness is higher than the first detail fineness; the 3D GIS map comprises a 3D GIS base map, wherein the 3D GIS base map is to comprise a 3D mapping map within a city range, and provides descriptions with a first fineness of detail of objects, wherein the objects comprise any one or more of a road, a water bank, a revetment, a dock, and a building;

many picture layers multizone show module: performing fusion display of a plurality of layers of the 3D GIS map, wherein the layers comprise layers containing any one or more objects of buildings, roads, bridges, greenbelts and water systems; allowing a user to autonomously select a display or a hidden layer;

the distributed application acceleration module: the display acceleration of the 3D GIS map after the BIM building model object is superposed is realized through a model dynamic combination and/or LOD layering mode; according to the current display scale, corresponding hierarchical data is called, a corresponding coarse mode is adopted for a model far away from the camera, the display pressure is reduced, and a corresponding fine mode is adopted for a model close to the camera; automatically loading map data in a viewport range, and unloading invisible map data according to the size of a memory space;

the display module is developed by fusing the real scenes in the key areas: based on a 3D GIS map, combining with real-time collected data, performing visual management on set landscape lighting in a key area, and presenting landscape lighting on-off states, operation scenes, comprehensive working conditions and statistical data; the real-time acquisition data comprises any one or more of media display data and video monitoring data;

the landscape lighting state live-action fusion display module: the method comprises the steps of acquiring the working states of a current landscape lighting lamp and a terminal in real time through a data interface, dynamically rendering a 3D GIS map and a BIM model according to data contents, and simulating and displaying a landscape lighting effect, wherein the data contents comprise any one or more contents of lamp types, parameters, control loop states and single lamp RGBW channel values;

the landscape lighting state live-action fusion display module comprises the following modules:

the dynamic scene real scene fusion display module: acquiring a release content graph of a current multimedia display screen in real time; the issued content graph corresponds to the light control nodes on the BIM through graph matching, and the working condition of the multimedia display screen is synchronously reflected by controlling the brightness and/or color of the corresponding light control nodes;

the video monitoring image live-action fusion display module: the method comprises the steps that a streaming media platform is connected, video images of any video monitoring point in a city are called through a streaming media management, playback and holder control interface, and the video images are displayed in a 3D GIS map scene in an overlapping mode;

the 2D GIS map display module comprises the following modules:

the map data acquisition module: importing data of a two-dimensional map into the map to form map data; wherein the data of the two-dimensional map comprises any one or more of shp, mif, tile map and satellite image;

the map data management module: providing a map data release service through a map service program of a server, and automatically acquiring and releasing map data of a corresponding space according to a request of a client;

the map data processing module: processing the map data;

the map data processing module comprises the following modules:

a graphics scaling module: carrying out enlarging and reducing operations on a client specified area;

the graph smooth roaming module: the method provides a smooth roaming function for a user and realizes seamless and non-refreshing visual effect;

layer switch control module: displaying/hiding the specified layer;

a navigation chart module: navigating the whole map range by using the navigation map, and responding to the positioning of the user;

the vector map object drawing module: support dynamic rendering of a variety of vector map object elements, including any one or any plurality of text, markup, lines, circles, ellipses, polygons, dynamic lines;

a mark aggregation module: when the map is zoomed, the density relation avoiding effect of the display mark is automatically adjusted according to the scale of the current window, and the number of overlapped marks after avoiding blanking is marked.

The video monitoring module supports C/S and B/S clients at the same time to access and operate data; wherein, all the authorities of each operator are authorized according to the system setting during logging in, and each operator can only see and operate the resources and functions with the authority; authorization can configure permissions for devices, users, and groups of users; the system has the functions of real-time monitoring, picture switching, control of a cradle head, video recording and playback, and video monitoring of equipment inspection, monitoring equipment management, monitoring control management, user management, log management and asset management; through the butt joint with software and hardware interface, can realize the view illumination linkage, include: real-time browsing of monitored images, snapshot and capture, picture round-robin, grouping round-robin, instant playback, pan-tilt control and electronic amplification.

The landscape lighting control module comprises the following modules:

single loop test module: the method comprises the steps of carrying out real-time test on a single loop aiming at each loop, and distinguishing various lamp lighting modes and scene control modes by the editing function of the lighting scene of each loop and the setting function of the lighting condition of each loop;

multi-loop combined test module: according to a user instruction, a plurality of loops are selected in a user-defined mode to carry out unified testing, and the editing function of the whole lighting scene of the loop group and the setting function of the lighting condition are carried out;

the multi-stage control and management module comprises: carrying out monomer sub-control, regional linkage and one-key master control;

scene mode setting and editing module: setting up normal lighting scene modes of weekdays, weekends and festivals, automatically executing the normal lighting scene modes after setting, and performing custom editing on each scene parameter or adding and deleting the scene modes according to instructions of a user;

the matrix centralized control module: unified control over a plurality of projects is achieved through centralized control, the projects needing centralized control are selected according to the instruction of a user and the requirement of lighting, and a corresponding scene mode is selected;

the fault analysis and alarm module: carrying out fault analysis and alarm; the method comprises the following steps of (1) providing an equipment offline alarm; the single-loop undervoltage alarm of the landscape lighting electric control cabinet is provided; the landscape lighting electric control cabinet single-loop overvoltage alarm is provided; the single-loop overload alarm of the landscape lighting electric control cabinet is provided; the single-loop current abnormity warning of the landscape lighting electric control cabinet is provided; monitoring landscape lighting electric control cabinet abnormal door opening alarm; providing an equipment initialization guide; switching the equipment to a controlled mode; display device IP and port; displaying the current instruction and the instruction updating time; displaying the illumination intensity updating time; displaying longitude, latitude, temperature and temperature update time; and displaying the working state and the updating time.

The information managed by the energy consumption management module comprises:

data content: the current, the voltage, the active power and the reactive power of the landscape lighting main loop and the current, the voltage, the active power and the reactive power of the landscape lighting sub-loop are respectively controlled by the control circuit; global, or partition level, real-time data;

global energy consumption real-time monitoring data: collecting, monitoring and displaying the overall energy consumption condition of landscape lighting, monitoring the real-time energy consumption condition of the landscape lighting of the city in real time by summarizing the energy consumption data of each lighting subarea and lighting buildings, and displaying the related data to users;

and (3) real-time monitoring data of partition energy consumption: monitoring the energy consumption of the subareas, and using conditions of total energy consumption and shunt energy consumption of the landscape lighting subsystem and the building;

energy consumption analysis data: energy consumption data of the lighting assets are counted and analyzed, and energy consumption comparison is combined; the energy consumption calculation, statistics and analysis of the landscape lighting subareas, buildings and loops are realized, and the functions of subarea and time-sharing statistics and comparative analysis are performed according to areas and time, so that a basis is provided for lighting energy conservation and emission reduction, energy consumption cost regulation and power consumption subsidy;

energy consumption data chart display data: and the displayed data is realized through the regional energy consumption data and the landscape facility according to the annual, monthly and daily data.

The 3D GIS map module comprises a distributed application acceleration module; in the distributed application acceleration module:

firstly, dynamically combining simplified textures through a model to reduce the data volume of the model;

then the LOD dynamically loads the batch model and adds a fast index and an integral description of the data set;

corresponding hierarchical data are automatically called according to a current display scale through model dynamic combination and LOD dynamic loading batch models, corresponding coarse models are adopted for models far away from each other, corresponding fine models are adopted for models near to each other, map data in a view port range are automatically loaded, and invisible map data are intelligently unloaded according to the size of a memory space.

The invention can be used for landscape lighting real-time networking control function, landscape lighting dynamic scheme deduction, arrangement and execution. The application of the invention can realize that:

1. the invention can effectively integrate control objects such as various lighting facilities, lighting systems and the like, realize the real-time networking joint control in a large-scale range and greatly improve the landscape lighting control level of Shanghai cities;

2. the control communication network is established, all-weather high-reliability networking joint control is realized, the application of the 4G wireless communication private network is deepened on the basis of project construction, the landscape lighting control communication network with a mixed framework is constructed by matching with a wired optical fiber link, the reliability of lighting control data in major holidays and activity periods is ensured, and the showing effect of the coastal river landscape lighting is ensured;

3. the multivariate data processing and the visual display are integrated, and support is provided for scientific and fine management of landscape lighting; with the provision of control requirements, the number and complexity of the urban landscape lighting monitoring terminals will further increase, and the previous management modes and technical means cannot effectively meet the operation and management requirements of large-scale landscape lighting monitoring terminals. The method comprises the steps of actively acquiring and processing operation data, monitoring terminal control data, energy consumption data, video monitoring data and the like of the landscape lighting facility by utilizing technologies such as data analysis, intelligent analysis and the like through big data study and judgment, data real-time analysis and the like, automatically analyzing the operation state, the facility operation state, the lighting rate, the energy consumption level and the like of a system through intelligent analysis to form various statistical analysis results and report data, providing a highly integrated management interface for managers through a 3D visual display platform, simplifying the management difficulty of the landscape lighting facility and the system, improving the management efficiency, and providing technologies and data support for scientific and fine management of landscape lighting;

4. through the construction of the invention, the application of advanced technologies such as communication, control, computer, GIS and the like in landscape lighting control is promoted to a great extent, a batch of innovative scientific and technological application achievements in landscape lighting and new ideas and new methods for engineering design, construction, operation and maintenance and management of landscape lighting monitoring systems are expected to be generated, and construction standards, design references and application guides are provided for the construction of the landscape lighting field in future.

5. The invention supports viewing real-time videos and watching history videos; the control of a tripod head is supported, and the angle, the focal length and the like of the camera can be controlled remotely; and the simultaneous opening of multiple paths of videos in a three-dimensional scene is supported, so that a manager can know the field situation in a macroscopic manner.

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The foregoing description has described specific embodiments of the present invention. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (5)

1. The utility model provides an intelligent monitored control system of view illumination which characterized in that includes the module:

3D GIS map module: constructing a base map environment of the 3D GIS map, inheriting a graph management tool, and realizing the fusion of the 3D GIS map and a facility BIM model;

2D GIS map display module: displaying and drawing a plane map;

the video monitoring module: performing data access and operation;

the landscape lighting control module: controlling the landscape lighting;

the energy consumption management module: managing energy consumption;

the 3D GIS map module comprises:

the map range management module: for a set object, replacing a corresponding model with first detail fineness on a 3D GIS basic map by adopting BIM modeling with second detail fineness, wherein the second detail fineness is higher than the first detail fineness; the 3D GIS map comprises a 3D GIS base map, wherein the 3D GIS base map is to comprise a 3D mapping map within a city range, and provides descriptions with a first fineness of detail of objects, wherein the objects comprise any one or more of a road, a water bank, a revetment, a dock, and a building;

many picture layers multizone show module: performing fusion display of a plurality of layers of the 3D GIS map, wherein the layers comprise layers containing any one or more objects of buildings, roads, bridges, greenbelts and water systems; allowing a user to select a display or hidden layer;

the distributed application acceleration module: the display acceleration of the 3D GIS map after the BIM building model object is superposed is realized through a model dynamic combination and/or LOD layering mode; according to the current display scale, corresponding hierarchical data is called, a corresponding coarse mold is adopted for a model which is far away from the camera, the display pressure is reduced, and a corresponding fine mold is adopted for a model which is near to the camera; automatically loading map data in a viewport range, and unloading invisible map data according to the size of a memory space;

the display module is developed by fusing the real scenes in the key areas: based on a 3D GIS map, combining with real-time collected data, performing visual management on set landscape lighting in a key area, and presenting landscape lighting on-off states, operation scenes, comprehensive working conditions and statistical data; the real-time acquisition data comprises any one or more of media display data and video monitoring data;

the landscape lighting state live-action fusion display module comprises: the method comprises the steps of acquiring the working states of a current landscape lighting lamp and a terminal in real time through a data interface, dynamically rendering a 3D GIS map and a BIM model according to data content, and simulating and displaying a landscape lighting effect, wherein the data content comprises any one or more of lamp type, parameters, control loop state and single lamp RGBW channel value;

wherein, the landscape lighting state live-action fusion display module comprises the following modules:

the dynamic scene real scene fusion display module: acquiring a release content graph of a current multimedia display screen in real time; the method comprises the steps that through pattern matching, a release content pattern corresponds to light control nodes on a BIM, and the working condition of a multimedia display screen is synchronously reflected through controlling the brightness and/or color of the corresponding light control nodes;

the video monitoring image live-action fusion display module: the method comprises the steps that a streaming media platform is connected, video images of any video monitoring point in a city are called through a streaming media management, playback and holder control interface, and the video images are displayed in a 3D GIS map scene in an overlapping mode;

the 2D GIS map display module comprises the following modules:

the map data acquisition module: importing data of a two-dimensional map into the map to form map data; wherein the data of the two-dimensional map comprises any one or any plurality of shp, mif, tile map and satellite image;

the map data management module: providing a map data release service through a map service program of a server, and automatically acquiring and releasing map data of a corresponding space according to a request of a client;

the map data processing module: processing the map data;

the map data processing module comprises the following modules:

a graphics scaling module: carrying out magnification and reduction operations on a region designated by a client;

the graph smooth roaming module: the method provides a smooth roaming function for a user and realizes seamless and non-refreshing visual effect;

layer switch control module: displaying/hiding the designated layer;

a navigation chart module: navigating the map to the whole map range by using the navigation map, and responding to the positioning of the user;

the vector map object drawing module: support dynamic rendering of a variety of vector map object elements, including any one or any plurality of text, markup, lines, circles, ellipses, polygons, dynamic lines;

a mark aggregation module: when the map is zoomed, the density relation avoiding effect of the display mark is automatically adjusted according to the scale of the current window, and the number of overlapped marks after avoiding blanking is marked.

2. The intelligent landscape lighting monitoring system according to claim 1, wherein the video monitoring module supports both C/S and B/S clients for data access and operation; all the authorities of each operator are authorized according to the system setting during login, and each operator can only see and operate the resources and functions with the authority; authorizations enable configuration of permissions for devices, users and groups of users; the system has the functions of real-time monitoring, picture switching, control of a cradle head, video recording and playback, and video monitoring of equipment inspection, monitoring equipment management, monitoring control management, user management, log management and asset management; through the butt joint with software and hardware interface, can realize the view illumination linkage, include: real-time browsing of monitored images, snapshot and capture, picture round-robin, grouping round-robin, instant playback, pan-tilt control and electronic amplification.

3. The intelligent landscape lighting monitoring system according to claim 1, wherein the landscape lighting control module comprises the following modules:

single loop test module: the method comprises the steps of carrying out real-time test on a single loop aiming at each loop, and distinguishing various lamp lighting modes and scene control modes by the editing function of the lighting scene of each loop and the setting function of the lighting condition of each loop;

multi-loop combined test module: according to a user instruction, a plurality of loops are selected in a user-defined mode to carry out unified testing, and the editing function of the overall lighting scene of the loops and the setting function of the lighting condition are carried out;

the multi-stage control and management module comprises: carrying out monomer sub-control, area linkage and one-key master control;

scene mode setting and editing module: setting up normal lighting scene modes of weekdays, weekends and festivals, automatically executing the normal lighting scene modes after setting, and performing custom editing on each scene parameter or adding and deleting the scene modes according to instructions of a user;

the matrix centralized control module: unified control over a plurality of projects is achieved through centralized control, the projects needing centralized control are selected according to the instruction of a user and the requirement of lighting, and a corresponding scene mode is selected;

the fault analysis and alarm module: carrying out fault analysis and alarm; the method has the advantages that the device off-line alarm is provided; the single-loop undervoltage alarm of the landscape lighting electric control cabinet is provided; the single-loop overvoltage alarm of the landscape lighting electric control cabinet is provided; the single-loop overload alarm of the landscape lighting electric control cabinet is provided; the single-loop current abnormity warning of the landscape lighting electric control cabinet is provided; monitoring landscape lighting electric control cabinet abnormal door opening alarm; providing an equipment initialization guide; switching the equipment to a controlled mode; display device IP and port; displaying a current instruction and instruction updating time; displaying the illumination intensity updating time; displaying longitude, latitude, temperature and temperature update time; and displaying the working state and the updating time.

4. The intelligent landscape lighting monitoring system of claim 1, wherein the information managed by the energy consumption management module comprises:

data content: the current, the voltage, the active power and the reactive power of the landscape lighting main loop and the current, the voltage, the active power and the reactive power of the landscape lighting sub-loop are respectively controlled by the control circuit; global, or partition level, real-time data;

global energy consumption real-time monitoring data: collecting, monitoring and displaying the overall energy consumption condition of landscape lighting, monitoring the real-time energy consumption condition of the landscape lighting in the city in real time by summarizing the energy consumption data of each lighting subarea and lighting buildings, and displaying the related data to users;

and (3) zoning energy consumption real-time monitoring data: monitoring the energy consumption of the subareas, and using conditions of total energy consumption and shunt energy consumption of the landscape lighting subsystem and the building;

energy consumption analysis data: energy consumption data of the lighting assets are counted and analyzed, and energy consumption comparison is combined; the energy consumption calculation, statistics and analysis of the landscape lighting subareas, buildings and loops are realized, subarea time-sharing statistics is carried out according to areas and time, and a comparison and analysis function is realized, so that a basis is provided for lighting energy conservation, emission reduction, energy consumption cost regulation and power consumption subsidy;

energy consumption data chart display data: and the displayed data is realized through the regional energy consumption data and the landscape facility according to the annual, monthly and daily data.

5. The intelligent landscape lighting monitoring system of claim 1, wherein the 3D GIS map module comprises a distributed application acceleration module; in the distributed application acceleration module:

firstly, dynamically combining simplified textures through a model to reduce the data volume of the model;

then LOD dynamically loads the batch model and adds a quick index and the integral description of a data set;

corresponding hierarchical data are automatically called according to a current display scale through model dynamic combination and LOD dynamic loading batch models, corresponding coarse models are adopted for models far away from each other, corresponding fine models are adopted for models near to each other, map data in a view port range are automatically loaded, and invisible map data are intelligently unloaded according to the size of a memory space.

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