CN113452740A - Urban light lighting control network architecture system - Google Patents

Abstract

According to the town light lightening control network architecture system, the gateway module and the receiving and sending module of the lamp group form a network architecture, so that the equipment sensing data output by the information transmission module is transmitted to the cloud platform for analysis and processing, and meanwhile, the control signal output by the cloud platform can be transmitted to the receiving and sending module to control the lighting control system or the equipment sensing module in the lamp group to execute corresponding operation, so that an intelligent city management function is realized. In addition, the town light lightening control network architecture system is set based on the existing street lamps and landscape lamps, is built by utilizing the existing equipment resources to the maximum extent, is simple and easy to realize, and has the characteristics of low construction cost and wide coverage range.

Description

Urban light lighting control network architecture system

Technical Field

The invention relates to the technical field of intelligent city management, in particular to a town light lightening control network architecture system.

Background

With the rapid development of economy, the urbanization construction also shows high-speed growth, the construction of various infrastructures is promoted in a large scale, and people also put forward higher and higher requirements on the efficiency and the quality of living services. However, the traditional city management mode has the problems of high cost and low efficiency, and is difficult to meet the requirement of developing a new and advanced city. For example, at present, landscape lamps, illuminating lamps and emergency lamps in cities and towns generally adopt a timing switch, the illumination degree is not adjustable, and actual light of the lamps is different for different weathers, so that the city light is turned on too early in winter sunny days, and the city light is turned on too late in winter rainy days or cloudy days, so that the illumination degree or the brightness of the landscape lamps cannot meet actual requirements. Therefore, how to effectively manage cities, serve the society and sense the living needs of residents is an urgent problem to be solved in city management.

Compared with big data information presented by a network, the city big data is more important, accurate and rich in application value, and reflects actual operation conditions of buildings, streets, environments, finance, commerce, logistics, medical treatment, education, traffic, population and the like of the city. If the urban big data can be effectively utilized, the urban operation level can be undoubtedly and greatly improved, and the intelligent technical support is improved for government management and service decision, economic development and civil guarantee.

In view of the above, how to provide a network architecture system to provide efficient and intelligent city management service is a technical subject to be solved.

Disclosure of Invention

The invention provides a town light brightening control network architecture system, which is used for providing efficient and intelligent city management services.

According to an aspect of the present invention, there is provided a town light lightening control network architecture system, including:

a near-end device for acquiring device sensing information;

the system comprises at least one information transmission module and a control module, wherein the information transmission module is used for acquiring equipment sensing information of near-end equipment and transmitting the equipment sensing information, and the information transmission module is provided with a wireless receiving unit and is used for transmitting the equipment sensing information within a certain range;

the lamp group comprises at least one street lamp with a power supply, at least one transceiver module and an illumination control system for controlling the on and off of the lamp group, and the transceiver module receives the equipment sensing information and is in communication connection with the illumination control system;

the gateway module is in wireless communication connection with the lamp group;

the cloud platform is in communication connection with the gateway module and controls output data of the gateway module;

when the transceiver module receives the device sensing data, the device sensing data is output to a gateway module connected with the transceiver module, and then the cloud platform is covered to receive the device sensing data through the gateway module and analyze the device sensing data to obtain the device sensing information for processing;

when the cloud platform is used for data control data, the gateway module receives the control data, outputs the control data to the transceiver module in communication connection with the gateway module, and controls the operation of the information transmission module in communication connection with the transceiver module according to the control data or controls the operation of the illumination control system in communication connection with the transceiver module according to the control data.

Preferably, based on the above scheme, the information transmission module is an even number of information transmission modules, each information transmission module transmits the device sensing data through the other information transmission modules within the transmission range, and transmits the device sensing data to the transceiver module through the other information transmission modules.

Preferably, on the basis of the above scheme, the transceiver module is an even number of transceiver modules, each transceiver module transmits the device sensing data through another transceiver module in the transceiver range, and the device sensing data is transmitted to the gateway module through another transceiver module.

Preferably, based on the above solution, the near-end device is a combination of a positioning module and a brightness sensor.

Preferably on the basis of the above scheme, the intelligent street lamp further comprises an environment monitoring module, wherein the environment monitoring module is arranged on the street lamp in the lamp group and is in communication connection with a transceiver module in the lamp group, the environment monitoring module collects environment monitoring information and outputs environment monitoring data, when the environment monitoring module outputs the environment monitoring data, the transceiver module in communication connection with the environment monitoring module receives the environment monitoring data and outputs the environment monitoring data to a gateway module in communication connection with the transceiver module through the network architecture, and then the cloud platform receives the environment monitoring data through the gateway module so as to analyze the environment monitoring data and obtain the environment monitoring information for processing.

Preferably, the transceiver module and the environmental monitoring module are disposed on a substrate, and the substrate is a substrate for a portable communication device.

Preferably, based on the above scheme, the environment monitoring module is any one or a combination of a global positioning function unit, a vehicle electronic device monitoring unit, an air quality monitoring unit, a pressure sensing unit, a water flow sensing unit, a smoke detection unit, a noise monitoring unit, a video monitoring unit, a temperature sensing unit, a humidity sensing unit and a light sensing unit.

Preferably, on the basis of the above scheme, the cloud platform further provides an information media module, and the information media module provides the device sensing information or the environment monitoring information and provides an interface for inputting interaction information according to the device sensing information or the environment monitoring information.

Preferably, on the basis of the above scheme, the cloud platform further has an information analysis module for analyzing the device sensing information and the environment monitoring information, and dividing the device sensing information and the environment monitoring information into exclusive information and non-exclusive information, and the cloud platform further has an information sharing module for pushing the exclusive information to an exclusive object and an information pushing module for sharing the non-exclusive information to a non-exclusive object.

On the basis of the scheme, the cloud platform is preferably provided with an information transaction module and is used for conducting transaction on the equipment sensing information and the environment monitoring information.

Preferably, based on the above scheme, the cloud platform further includes advertisement data, the advertisement data represents advertisement information, the gateway module receives the advertisement data, and outputs the advertisement data to the transceiver module communicatively connected to the gateway module through the network architecture, so that the transceiver module broadcasts the advertisement information represented by the advertisement data.

Preferably, on the basis of the scheme, the cloud platform is further provided with an advertisement trading module and trades the broadcast of the announcement information.

On the basis of the above scheme, it is preferable that the mobile device further comprises a mobile device, and when the mobile device is close to the transceiver module, the mobile device is in communication connection with the transceiver module so as to play the announcement information broadcast by the transceiver module.

Preferably, on the basis of the above scheme, the announcement information broadcast by the transceiver module includes an identity query message, when the mobile device is close to the transceiver module, the mobile device can receive the identity query message, then can select to provide an identity identification information to the transceiver module through a built-in community media account, and output the identity identification information to the gateway module through the network architecture, and then the cloud platform receives the identity identification information through the gateway module, so as to provide the identity of a user who identifies the mobile device and provide the state of the user who records the mobile device.

On the basis of the above scheme, preferably, the street lamp of the lamp group has a playing module in communication connection with the associated transceiver module, and the playing module is used for playing the announcement information broadcasted by the transceiver module.

On the basis of the scheme, the playing module is preferably provided with an interactive interface used for generating interactive information related to the announcement information and outputting interactive data according to the generated interactive information; when the playing module outputs the interactive data, the transceiver module receives the interactive data and outputs the interactive data to the gateway module through the network architecture, and then the cloud platform receives the interactive data through the gateway module so as to analyze the interactive data and obtain the interactive information for processing.

On the basis of the scheme, preferably, each street lamp is further provided with an equipment seat, the equipment seat can be used for arranging network equipment, the network equipment is powered by the street lamp arranged on the equipment seat, the network equipment is connected with the network framework through a receiving and transmitting module associated with the street lamp so as to provide network service, and the cloud platform is further provided with a leasing interface used for providing leasing transaction for the equipment seats arranged on the street lamps.

Preferably, on the basis of the scheme, the cloud platform is also provided with a bandwidth trading module and trades the bandwidth of the network architecture.

The invention relates to a town light lightening control network architecture system, which comprises: a near-end device for providing device sensing information; an information transmission module for collecting device sensing information of the near-end device and transmitting device sensing data according to the device sensing information, the information transmission module having a wireless receiving unit 21 for transmitting the device sensing data in a transmission range; a street lamp having a power supply; the illumination control system is used for controlling the on-off of the street lamp; the gateway module is powered by the power supply of the street lamp, receives the equipment sensing data in a communication range in a wireless communication mode, and is in communication connection with the lighting control system; the cloud platform is in communication connection with the gateway module and outputs control data to the gateway module; when the gateway module receives the device sensing data, the device sensing data is output to the cloud platform, and then the cloud platform analyzes the device sensing data to obtain the device sensing information for processing; when the cloud platform outputs the control data, the gateway module receives the control data and controls the operation of the information transmission module according to the control data, or controls the operation of a lighting control system in communication connection according to the control data.

Preferably, on the basis of the above scheme, the gateway module provides an adjustment interface of the communication protocol to adapt to various cloud platforms with different communication protocols, so that the gateway module is in communication connection with the cloud platform.

According to the town light lightening control network architecture system, the gateway module and the receiving and sending module of the lamp group form a network architecture, so that the equipment sensing data output by the information transmission module is transmitted to the cloud platform for analysis and processing, and meanwhile, the control signal output by the cloud platform can be transmitted to the receiving and sending module to control the lighting control system or the equipment sensing module in the lamp group to execute corresponding operation, so that an intelligent city management function is realized. In addition, the town light lightening control network architecture system is set based on the existing street lamps and landscape lamps, is built by utilizing the existing equipment resources to the maximum extent, is simple and easy to realize, and has the characteristics of low construction cost and wide coverage range.

Moreover, the network architecture system of the invention can be used as a management control system with different functions in a service system of an intelligent city, and has wide application range.

The invention also provides a town light lightening control network architecture system which is only composed of the near-end equipment, the information transmission module, the street lamp, the illumination control system, the gateway module and the cloud platform, so that the architecture is simpler, and higher data transmission bandwidth can be provided.

Drawings

Fig. 1 is a first structural block diagram of the town light brightening control network architecture system of the present invention;

fig. 2 is a second structural block diagram of the town light lightening control network architecture system of the present invention;

fig. 3 is a circuit diagram of the buzzer alarm of the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 in combination with fig. 2 and fig. 3, the town light lightening control network architecture system according to the present invention includes a near-end device 10, at least one information transmission module 20, a light group 30, a gateway module 50, and a cloud platform 70.

The near-end device 10 is configured to obtain device sensing information, such as brightness information of the lamp group 30; the near-end equipment 10 is a combination of a positioning module and a brightness sensor, the positioning module utilizes GPS and radio frequency analysis technology to provide tracking function for various objects, which can be used for human body, such as old people, children and special people, or for animals, such as pets and farm animals, and the tracking unit can also be used for objects, such as logistics, and provides related progress tracking service for logistics distribution.

The brightness sensor obtains the light information outside the lamp group 30 at the current position, and sends the information to the information transmission module 20 in combination with the positioning module.

The information transmission module is used for acquiring the device sensing information of the near-end device 10 and transmitting the device sensing information, and the information transmission module 20 is provided with a wireless receiving unit 21 for transmitting the device sensing information within a certain range;

the lamp group 30 comprises at least one street lamp 31 with a power supply, at least one transceiver module 40 and an illumination control system 80 for controlling the on and off of the lamp group 30, wherein the transceiver module 40 receives equipment sensing information and is in communication connection with the illumination control system 80; referring to fig. 2, the lamp group 30 may have various combinations, wherein when the demand of communication data amount is low, a plurality of street lamps 31 and a transceiver module 40 form a lamp group 30; when the demand of the communication data volume is high, the lamp group 30 may be composed of one street lamp 31 and one transceiver module 40, or the lamp group 30 may be composed of a plurality of street lamps 31 and a plurality of transceiver modules 40, that is, each street lamp 31 is correspondingly connected with one transceiver module 40 for communication, and the number of the street lamps 31 and the transceiver modules 40 may be adjusted according to the actual demand;

the transceiver module 40 is powered by the power source of any one of the street lamps 31 in the lamp group 30, and transmits and receives data within a transmitting and receiving range, and specifically, the transceiver module 40 is used for receiving the device sensing data transmitted by the information transmission module 20 and is in communication connection with the lighting control system 80. In the embodiment of the present invention, there are a plurality of information transmission modules 20, and each information transmission module 20 may transmit the device sensing data through at least one other information transmission module 20 within the transmission range, and transmit the device sensing data to the transceiver module 40 through at least one other information transmission module 20. Specifically, each information transmission module 20 can sequentially transmit the device sensing data in a substation manner through the wireless receiving unit 21 of each information transmission module 20 from far to near according to the transmission path between the information transmission module 20 and the transceiving module 40, wherein the current information transmission module 20 receives the device sensing data transmitted by the previous information transmission module 20, packages the device sensing data of the previous information transmission module 20 and the device sensing data of the current information transmission module 20, and transmits the package to the next information transmission module 20 until the package is transmitted to the transceiving module 40.

Certainly, not limited to the above operation, each information transmission module 20 may also make the current information transmission module 20 transmit the device sensing data to the next information transmission module 20 with stronger wireless communication signal or larger redundancy of transmission channel according to the strength of the wireless communication signal or the redundancy of transmission channel, so as to improve the transmission efficiency of the device sensing data. The lighting control system 80 is mainly used for controlling the on/off of the street lamps 31 in the lamp group 30 and receiving the control data of the modules so as to realize operations such as unified on/off control and brightness adjustment for the street lamps 31 in the lamp group 30 (please refer to details later). In addition, collecting the voltage, current and power information of the street lamp 31 may also be included.

A gateway module 50, wherein the gateway module 50 is connected with the lamp group 30 in a wireless communication manner; the current information transmission module 20 preferentially transmits the device sensing data to the next information transmission module 20 with stronger wireless communication signal or larger redundancy of the transmission channel, so as to improve the transmission efficiency of the device sensing data.

The cloud platform 70 is in communication connection with the gateway module 50, and controls output data of the gateway module 50;

when the transceiver module 40 receives the device sensing data, the device sensing data is output to the gateway module 50 connected to the transceiver module 40, and then the cloud-covered platform 70 receives the device sensing data through the gateway module 50, and analyzes the device sensing data to obtain the device sensing information for processing;

when the cloud platform 70 receives the control data, the gateway module 50 receives the control data, and outputs the control data to the transceiver module 40 communicatively connected to the gateway module 50, so that the transceiver module 40 controls the operation of the information transmission module 20 communicatively connected to the gateway module 50 according to the control data, or controls the operation of the lighting control system 80 communicatively connected to the gateway module according to the control data.

Of course, as a preferred embodiment of the present invention, the information transmission module 20 is an even number of information transmission modules 20, each information transmission module 20 transmits the device sensing data through the other information transmission modules 20 within the transmission range, and the device sensing data is transmitted to the transceiver module 40 through the other information transmission modules 20.

Preferably, the transceiver module 40 is an even number of transceiver modules 40, each transceiver module 40 transmits the device sensing data through another transceiver module 40 in the transceiving range, and the device sensing data is transmitted to the gateway module 50 through another transceiver module 40.

The invention further comprises an environment monitoring module, the environment monitoring module is arranged on the street lamp 31 in the lamp group 30 and is in communication connection with the transceiver module 40 in the lamp group 30, the environment monitoring module collects environment monitoring information to output environment monitoring data, when the environment monitoring module outputs the environment monitoring data, the transceiver module 40 in communication connection with the environment monitoring module receives the environment monitoring data and outputs the environment monitoring data to the gateway module 50 in communication connection with the transceiver module 40 through the network framework 60, and then the cloud platform 70 receives the environment monitoring data through the gateway module 50 to analyze the environment monitoring data and obtain the environment monitoring information to process.

The transceiver module 40 and the environmental monitoring module are disposed on a substrate, which is a substrate for a portable communication device. The environment monitoring module is any one or combination of a global positioning function unit, a vehicle electronic equipment monitoring unit, an air quality monitoring unit, a pressure sensing unit, a water flow sensing unit, a smoke detecting unit, a noise monitoring unit, a video monitoring unit, a temperature sensing unit, a humidity sensing unit and a light sensing unit.

The cloud platform 70 of the present invention further provides an information media module, which provides the device sensing information or the environment monitoring information, and provides an interface for inputting interaction information according to the device sensing information or the environment monitoring information.

The cloud platform 70 further has an information analysis module for analyzing the device sensing information and the environment monitoring information, and dividing the device sensing information and the environment monitoring information into specific information and non-specific information, and the cloud platform 70 further has an information sharing module for pushing the specific information to a specific object and an information pushing module for sharing the non-specific information to a non-specific object.

The cloud platform 70 also has an information transaction module, and performs transaction on the device sensing information and the environment monitoring information.

The cloud platform 70 further includes outputting advertisement data, which represents advertisement information, and the gateway module 50 receives the advertisement data, outputs the advertisement data to the transceiver module 40 communicatively connected to the gateway module 50 through the network architecture 60, and broadcasts the advertisement information represented by the advertisement data through the transceiver module 40. The cloud platform 70 also has an advertisement trading module and trades the broadcast of the announcement information.

Preferably, the mobile device is also included, and when the mobile device is close to the transceiver module 40, the mobile device is in communication with the transceiver module 40 and plays the announcement information broadcast by the transceiver module 40. The announcement information broadcasted by the transceiver module 40 includes an identity query message, when the mobile device approaches the transceiver module 40, the mobile device can receive the identity query message, then can select to provide an identity identification information to the transceiver module 40 through a built-in community media account, and output the identity identification information to the gateway module 50 through the network architecture 60, and then the cloud platform 70 receives the identity identification information through the gateway module 50, provides an identity for identifying a user of the mobile device, and provides a record of a state of the user of the mobile device.

The street lamps 31 of the lamp group 30 have a playing module in communication connection with the associated transceiver module 40, and the playing module is used for playing the announcement information broadcasted by the transceiver module 40.

The playing module is also provided with an interactive interface which is used for generating interactive information about the announcement information and outputting interactive data according to the generated interactive information; when the playing module outputs the interactive data, the transceiver module 40 receives the interactive data and outputs the interactive data to the gateway module 50 through the network architecture 60, and then the cloud platform 70 receives the interactive data through the gateway module 50 and analyzes the interactive data to obtain the interactive information for processing.

Each street lamp 31 is further provided with an equipment seat, the equipment seat is used for arranging network equipment, the network equipment is powered by the street lamp 31 arranged on the equipment seat, the network equipment is connected with the network framework 60 through the transceiver module 40 associated with the street lamp 31 so as to provide network service, and the cloud platform 70 is further provided with a leasing interface used for providing leasing transaction for the equipment seats arranged on each street lamp 31.

The cloud platform 70 also has a bandwidth transaction module, and performs transaction on the bandwidth of the network architecture 60.

The invention relates to a town light lightening control network architecture system, which comprises: a near-end device 10 for providing device sensing information; an information transmission module 20, wherein the information transmission module 20 is configured to collect device sensing information of the near-end device 10 and transmit device sensing data accordingly, the information transmission module 20 has a wireless receiving unit 21 for transmitting the device sensing data within a transmission range; a street lamp 31, the street lamp 31 having a power supply; the illumination control system 80 is used for controlling the on and off of the street lamp 31; a gateway module 50, wherein the gateway module 50 is powered by the power supply of the street lamp 31, receives the device sensing data in a wireless communication manner within a communication range, and is in communication connection with the lighting control system 80; the cloud platform 70 is in communication connection with the gateway module 50, and outputs control data to the gateway module 50; when the gateway module 50 receives the device sensing data, the device sensing data is output to the cloud platform 70, and then the cloud platform 70 analyzes the device sensing data to obtain the device sensing information for processing; when the cloud platform 70 outputs the control data, the gateway module 50 receives the control data, and controls the operation of the information transmission module 20 according to the control data, or controls the operation of the communicatively connected lighting control system 80 according to the control data.

The gateway module 50 provides an interface for adjusting communication protocols to adapt to various cloud platforms 70 with different communication protocols, and the gateway module 50 is connected to the cloud platforms 70 in a communication manner.

According to the town light lightening control network architecture system, the gateway module 50 and the receiving and sending module 40 of the lamp group 30 form the network architecture 60, so that the equipment sensing data output by the information transmission module 20 is transmitted to the cloud platform 70 for analysis and processing, and meanwhile, the control signal output by the cloud platform 70 can be transmitted to the receiving and sending module 40 to control the lighting control system 80 or the equipment sensing module in the lamp group 30 to execute corresponding operation, so that an intelligent city management function is realized. In addition, the town light lightening control network architecture system is set based on the existing street lamps 31 and landscape lamps, is built by utilizing the existing equipment resources to the maximum extent, is simple and easy to realize, and has the characteristics of low construction cost and wide coverage range.

Finally, the network architecture 60 system of the present invention can be used as a management control system with different functions in a service system of an intelligent city, and has a wide application range.

The invention also provides a town light lightening control network architecture system which is only composed of the near-end equipment 10, the information transmission module 20, the street lamp 31, the lighting control system 80, the gateway module 50 and the cloud platform 70, the architecture is simpler, and higher data transmission bandwidth can be provided.

Finally, the method of the present application is only a preferred embodiment and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A town light lightening control network architecture system is characterized by comprising:

a near-end device for acquiring device sensing information;

the system comprises at least one information transmission module and a control module, wherein the information transmission module is used for acquiring equipment sensing information of near-end equipment and transmitting the equipment sensing information, and the information transmission module is provided with a wireless receiving unit and is used for transmitting the equipment sensing information within a certain range;

the lamp group comprises at least one street lamp with a power supply, at least one transceiver module and an illumination control system for controlling the on and off of the lamp group, and the transceiver module receives the equipment sensing information and is in communication connection with the illumination control system;

the gateway module is in wireless communication connection with the lamp group;

the cloud platform is in communication connection with the gateway module and controls output data of the gateway module;

when the transceiver module receives the device sensing data, the transceiver module outputs the device sensing data to a gateway module connected with the transceiver module, and then a cloud platform covered with the gateway module receives the device sensing data and analyzes the device sensing data to obtain the device sensing information for processing;

when the cloud platform data is the control data, the gateway module receives the control data, outputs the control data to a transceiver module in communication connection with the gateway module, and controls the operation of an information transmission module in communication connection with the transceiver module according to the control data or controls the operation of an illumination control system in communication connection with the transceiver module according to the control data.

2. The town light brightening control network architecture system of claim 1, wherein the information transmission module is an even number of information transmission modules, each of the information transmission modules transmits the device sensing data through the other information transmission module within the transmission range, and transmits the device sensing data to the transceiver module through the other information transmission module.

3. The town light lightening control network architecture system according to claim 1, wherein the number of the transceiver modules is an even number, each transceiver module transmits the device sensing data through another transceiver module within the transceiving range, and the device sensing data is transmitted to the gateway module through another transceiver module.

4. The town light lightening control network architecture system defined in claim 1, wherein the near-end device is a combination of a positioning module and a lightening sensor.

5. The town light lightening control network architecture system of claim 1, further comprising an environment monitoring module, wherein the environment monitoring module is disposed on the street lamps in the lamp group, and is in communication connection with the transceiver module in the light group, the environment monitoring module collects environment monitoring information to output environment monitoring data, when the environment monitoring module outputs the environment monitoring data, the transceiver module which is in communication connection with the environment monitoring module receives the environment monitoring data, and outputs the environment monitoring data to the gateway module which is in communication connection with the transceiver module through the network architecture, and the cloud platform receives the environment monitoring data through the gateway module so as to analyze the environment monitoring data and obtain the environment monitoring information for processing.

6. The town light lightening control network architecture system recited in claim 1, wherein the transceiver module and the environment monitoring module are disposed on a substrate, and the substrate is a substrate for a portable communication device.

7. The town light brightening control network architecture system of claim 1, wherein the environment monitoring module is any one or a combination of a global positioning function unit, a vehicle electronic equipment monitoring unit, an air quality monitoring unit, a pressure sensing unit, a water flow sensing unit, a smoke detection unit, a noise monitoring unit, a video monitoring unit, a temperature sensing unit, a humidity sensing unit, and a light sensing unit.

8. The town light lightening control network architecture system recited in claim 1, wherein the cloud platform further provides an information media module, the information media module providing the device sensing information or the environment monitoring information and providing an interface for inputting interactive information with respect to the device sensing information or the environment monitoring information.

9. The town light brightening control network architecture system as claimed in claim 1, wherein the cloud platform further comprises an information analysis module for analyzing the device sensing information and the environment monitoring information to separate the device sensing information and the environment monitoring information into proprietary information and non-proprietary information, and further comprises an information sharing module for pushing the proprietary information to a proprietary object and an information pushing module for sharing the non-proprietary information to a non-proprietary object.

10. The town light lightening control network architecture system according to claim 1, wherein the cloud platform further has an information transaction module, and performs a transaction between the device sensing information and the environment monitoring information.

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