CN109890116B - Street lamp management method and street lamp system - Google Patents

Abstract

The invention discloses a street lamp management method, which is applied to a street lamp system, wherein the street lamp system comprises a plurality of single lamp controllers, a portable base station and a rear-end management platform; the method comprises the following steps: after the single lamp controller is installed, broadcasting information carrying the ID code of the single lamp controller; the portable base station is positioned in a preset range around the street lamp, receives the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp, and then sends the received information to the rear-end management platform; the preset range is smaller than half of the street lamp interval; and the rear-end management platform acquires the ID code contained in the broadcast information with the maximum signal intensity and binds the ID code with the street lamp code. The invention utilizes the ID code broadcasted by the single lamp controller to manage the street lamp, thereby reducing the maintenance cost, facilitating the acquisition of the ID code, reducing the workload of workers in the street lamp management process and having high convenience. The invention also discloses a street lamp system based on the method.

Description

Street lamp management method and street lamp system

Technical Field

The invention relates to the technical field of street lamp installation and management, in particular to a street lamp management method and a street lamp system.

Background

At present, most of street lamp systems control a street lamp by a single lamp controller, each street lamp controller corresponds to an ID code, and each street lamp also corresponds to a street lamp code to represent the position of the street lamp. In order to manage the street lamps conveniently, the back-end management platform needs to bind and store the street lamp code of each street lamp and the ID code of the single-lamp controller arranged on the street lamp code.

At present, the way of binding the street lamp code and the ID code is realized by attaching corresponding labels to a street lamp controller and a lamp post in the street lamp installation process, and the labels are usually arranged at the top end of the street lamp in order to avoid artificial damage. After the street lamp is installed, a worker is required to sweep codes or manually record ID codes for the tags after climbing onto the street lamp, and then the ID codes and the street lamp code entry system are bound, so that the control and management of the street lamp are realized.

However, in this way, firstly, a situation of label missing may occur, which affects the data statistics integrity of the back-end management platform, and meanwhile, the label is easy to fall off after aging, the maintenance is troublesome, and the maintenance cost is high. And, after the staff installed the street lamp and accomplished or replaced the single lamp controller, the condition of forgetting to sweep the sign indicating number appears easily, needs the staff to climb up the street lamp again under this kind of condition and sweeps the sign indicating number, and is consuming time and laboursome to, if in staff's maintenance process, replaced single lamp controller and label but forgotten to sweep the sign indicating number, still can make the single lamp controller ID label of saving in the rear end management platform appear with the inconsistent condition in street lamp position, influence the management to the street lamp. In addition, when the label condition is required to be checked, the user also needs to climb on a street lamp for checking, and the convenience is poor.

Therefore, how to provide a street lamp management method and a street lamp system capable of solving the above problems is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide a street lamp management method and a street lamp system, which are used for binding an ID code and a street lamp code by using the ID code broadcasted by a single lamp controller, reduce the maintenance cost, facilitate the acquisition of the ID code, reduce the workload of workers in the street lamp management process and have high convenience.

In order to solve the technical problems, the invention provides a street lamp management method which is applied to a street lamp system, wherein the street lamp system comprises a plurality of single lamp controllers, a portable base station and a rear-end management platform; the method comprises the following steps:

after the single lamp controller is installed, broadcasting information carrying the ID code of the single lamp controller;

the portable base station is positioned in a preset range around a street lamp, receives broadcast information and signal intensity thereof sent by each single lamp controller and an input street lamp code of the street lamp, and sends the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp to the back-end management platform; the preset range is smaller than half of the street lamp distance;

and the rear-end management platform screens the broadcast information with the maximum signal intensity, reads the ID code contained in the broadcast information, and binds the read ID code with the street lamp code.

Preferably, the process of sending the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code of the street lamp to the back-end management platform after the portable base station is located in a preset range around the street lamp and receives the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code of the street lamp includes:

the portable base station receives broadcast information and signal intensity thereof sent by each single lamp controller in real time;

the portable base station is located in a preset range around the street lamp and receives the input street lamp codes of the street lamp, and then sends the currently received broadcast information and the signal intensity thereof sent by each single lamp controller and the street lamp codes to the back-end management platform.

Preferably, the process of sending the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code of the street lamp to the back-end management platform after the portable base station is located in a preset range around the street lamp and receives the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code of the street lamp includes:

the portable base station is positioned in a preset range around the street lamp and triggers and scans the surrounding broadcast information after receiving the input street lamp code of the street lamp, and receives the scanned broadcast information and the signal intensity thereof sent by each single lamp controller;

and sending the currently received broadcast information and the signal intensity thereof sent by each single-lamp controller and the street lamp codes to the back-end management platform.

Preferably, after the backend management platform binds the read ID code with the street lamp code, the backend management platform further includes:

and the back-end management platform returns a binding completion prompt to the portable base station for displaying.

Preferably, after receiving the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code, the portable base station further includes:

and the portable base station displays the received broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp codes.

Preferably, a long-distance radio lora module is arranged in the single-lamp controller, the signal strength is an RSSI value of the lora received signal strength, and a lora gateway is arranged in the portable base station.

In order to solve the technical problem, the invention also provides a street lamp system, which comprises a plurality of single lamp controllers, a base station and a rear end management platform;

the single lamp controller is used for broadcasting broadcast information carrying self ID codes after self installation is finished;

the portable base station is used for receiving the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp when the portable base station is positioned in a preset range around the street lamp, and sending the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp to the rear-end management platform;

and the rear-end management platform is used for screening the broadcast information with the maximum signal intensity, reading the ID code contained in the broadcast information and binding the read ID code with the street lamp code.

Preferably, the portable base station is specifically configured to:

receiving broadcast information and signal intensity thereof sent by each single lamp controller in real time; and when the single lamp controller is positioned in a preset range around the street lamp and receives the input street lamp code of the street lamp, the currently received broadcast information and the signal intensity thereof sent by each single lamp controller and the street lamp code are sent to the back-end management platform.

Preferably, the backend management platform is further configured to: returning a prompt of completing binding to the portable base station;

and the portable base station is also used for displaying a prompt of binding completion returned by the back-end management platform.

Preferably, a long-distance radio lora module is arranged in the single-lamp controller, the signal strength is an RSSI value of the lora received signal strength, and a lora gateway is arranged in the portable base station.

The invention provides a street lamp management method.A single lamp controller on a street lamp can spontaneously broadcast an ID code of the single lamp controller after the single lamp controller is installed; then, after moving to a preset range around the street lamp, the portable base station receives the input street lamp code of the street lamp, the broadcast information broadcasted by each single lamp controller and the signal intensity thereof, and sends the information to a back-end management platform; the preset range is less than half of the street lamp spacing. The closer the single-lamp controller is to the portable base station, the greater the signal intensity of the broadcast information received by the portable base station and sent by the single-lamp controller is, so that the broadcast information received by the portable base station with the maximum signal intensity is sent by the street lamp closest to the portable base station; because the preset range is smaller than half of the distance between the street lamps, the street lamp closest to the portable base station is the street lamp within the preset range of the portable base station, namely the street lamp corresponding to the input street lamp code; therefore, the back-end management platform binds the ID code in the broadcast information with the maximum signal intensity with the input street lamp code.

Through this kind of mode of binding, at first need not set up additional subassembly such as label on the street lamp, consequently also need not maintain these additional subassemblies, reduced the maintenance cost to only need set up single lamp controller can, avoided the installation as far as possible to omit the influence to backstage data. And, the single lamp controller can broadcast the ID code, and the staff need not climb up the street lamp and sweep the sign indicating number, but only need carry portable basic station and remove, forget to acquire the ID code or because the single lamp controller changes and need modify the ID code that the backstage was preserved under the circumstances, also need not the staff to climb up the street lamp and handle, consumed time and work load when having reduced ID code and street lamp code and having bound have improved the convenience of staff in carrying out street lamp management and maintenance process. The invention also provides a street lamp system based on the method.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed in the prior art and the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a flowchart illustrating a process of a street lamp management method according to the present invention;

fig. 2 is a flowchart illustrating a process of an embodiment of a street lamp management method according to the present invention;

fig. 3 is a flowchart illustrating a process of another embodiment of a street lamp management method according to the present invention;

fig. 4 is a schematic structural diagram of a street lamp system provided by the present invention.

Detailed Description

The core of the invention is to provide a street lamp management method and a street lamp system, the ID code broadcasted by the single lamp controller is used for binding the ID code and the street lamp code, the maintenance cost is reduced, the ID code is convenient to obtain, the workload of workers in the street lamp management process is reduced, and the convenience is high.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a street lamp management method, which is applied to a street lamp system, wherein the street lamp system comprises a plurality of single lamp controllers, a portable base station and a rear-end management platform; referring to fig. 1, fig. 1 is a flowchart illustrating a process of a street lamp management method according to the present invention; the method comprises the following steps:

step s 1: after the single lamp controller is installed, broadcasting information carrying the ID code of the single lamp controller;

the street lamp controller comprises a plurality of street lamps, a single lamp controller is arranged in each street lamp, each single lamp controller is provided with a unique ID code, and the background needs to bind the street lamp code of each street lamp with the ID code of the single lamp controller arranged in the background in order to facilitate background management. The single lamp controller can start broadcasting the ID code of the single lamp controller after being electrified, so that only a wireless broadcasting module is required to be arranged in the single lamp controller, and components such as a label are not required to be additionally arranged, thereby avoiding the cost consumed by operations such as maintenance and replacement of the label component. Moreover, the staff can hold the portable base station on the ground to acquire the broadcast information without climbing the street lamp, so that the operation of acquiring the ID code when the staff forgets to acquire the ID code or maintain the ID code is facilitated, and the time and the labor are saved.

Step s 2: the portable base station is positioned in a preset range around the street lamp, receives the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp, and sends the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp to the rear-end management platform; the preset range is smaller than half of the street lamp interval; the street lamp corresponding to the input street lamp code is the street lamp with the distance from the portable base station smaller than the preset range.

Step s 3: and the rear-end management platform screens the broadcast information with the maximum signal intensity, reads the ID code contained in the broadcast information, and binds the read ID code with the street lamp code.

It should be noted that the preset range is set to be smaller than half of the street lamp interval, because if the portable base station is located between two street lamps, if the preset range is greater than or equal to half of the street lamp interval, it may happen that the distances from the portable base station to the two street lamps are both smaller than the preset range, so that the street lamp closest to the portable base station cannot be determined subsequently according to the received signal strength, and therefore the ID code that should be selected for reading cannot be confirmed, and subsequent binding operation is affected. For example, if the street lamp distance is 10 meters and the preset range is 6, when the portable base station is located between the street lamps a and B, the distances from the portable base station to the street lamps a and B are both smaller than the preset range, and the input street lamp code may be the street lamp code of the street lamp a or the street lamp code of the street lamp B; in addition, since the portable base station is located right in the middle of the street lamps a and B, the signal strength of the broadcast information received by the portable base station and sent by the single-lamp controllers of the street lamps a and B is the same, in this case, the backend management platform cannot determine which ID code in the broadcast information needs to be bound with the input street lamp code, and thus, a binding error is easily caused.

Therefore, the preset range needs to be smaller than half of the street lamp pitch. It can be understood that, because the preset range is smaller than half of the distance between the street lamps, only one distance from the portable base station to each street lamp is smaller than the preset range, that is, only one street lamp is smaller than the preset range from the portable base station at the same time, and therefore, the street lamp closest to the portable base station can be clearly judged under the condition, and the subsequent binding is convenient according to the ID code in the broadcast information with the strongest signal intensity. Namely, when the portable base station is located in the preset range around the street lamp A, the distance from the portable base station to the street lamp A is smaller than the distance from the portable base station to other street lamps, namely, the street lamp closest to the portable base station is the street lamp A. For example, if the street lamp distance is 10 meters and the preset range is 4 meters, if the portable base station is located in the range of 4 meters around the street lamp a, the distance between the portable base station and other street lamps is also 6 meters, and therefore the portable base station is obviously closest to the street lamp a. The closer the single-lamp controller is to the portable base station, the greater the signal intensity of the broadcast information received by the portable base station and sent by the single-lamp controller is, so that the broadcast information with the maximum signal intensity is indicated to be sent by the street lamp closest to the portable base station, namely, the street lamp A in the preset range of the portable base station, and the input street lamp code received by the portable base station is also the serial number of the street lamp A, so that the ID code in the broadcast information with the maximum signal intensity and the input street lamp code are bound by the back-end management platform.

Through this kind of mode of binding, at first need not set up additional subassembly such as label on the street lamp, consequently also need not maintain these additional subassemblies, reduced the maintenance cost to only need set up single lamp controller can, avoided the installation as far as possible to omit the influence to backstage data. And, the single lamp controller can broadcast the ID code, and the staff need not climb up the street lamp and sweep the sign indicating number, but only need carry portable basic station and remove, forget to acquire the ID code or because the single lamp controller changes and need modify the ID code that the backstage was preserved under the circumstances, also need not the staff to climb up the street lamp and handle, consumed time and work load when having reduced ID code and street lamp code and having bound have improved the convenience of staff in carrying out street lamp management and maintenance process.

In a preferred embodiment, referring to fig. 2, fig. 2 is a flowchart illustrating a process of an embodiment of a street lamp management method according to the present invention; the process of step s2, comprising:

step s 211: the portable base station receives broadcast information and signal intensity thereof sent by each single lamp controller in real time;

step s 212: the portable base station is located in a preset range around the street lamp and receives the input street lamp codes of the street lamp, and then sends the currently received broadcast information sent by each single lamp controller, the signal intensity of the broadcast information and the street lamp codes to the rear-end management platform.

It can be understood that, in this embodiment, the broadcast information and the signal intensity thereof are received in real time, so that the currently received street lamp code, the broadcast information and the intensity thereof can be immediately sent to the back-end management platform as long as the portable base station is located within the preset range around the street lamp and receives the input street lamp code, thereby increasing the speed of information sending, improving the binding process between the ID code and the street lamp code, and improving the working efficiency.

In another preferred embodiment, referring to fig. 3, fig. 3 is a flowchart of a process of another embodiment of a street lamp management method provided by the present invention; the process of step s2, comprising:

step s 221: the portable base station is positioned in a preset range around the street lamp and triggers and scans the surrounding broadcast information after receiving the input street lamp codes of the street lamp, and receives the scanned broadcast information and the signal intensity thereof sent by each single lamp controller;

step s 222: and the portable base station sends the currently received broadcast information sent by each single lamp controller, the signal intensity of the broadcast information and the street lamp codes to the rear-end management platform.

It can be understood that although the single lamp controller broadcasts in real time, since the backend management platform needs to bind the ID code with the street lamp code, the received broadcast information and the strength thereof are not useful until the input street lamp code is received, and since the portable base station moves continuously, the received signal strength changes continuously, and therefore, before the position of the portable base station moves completely, the received signal strength is inaccurate and therefore cannot be used. Therefore, if the portable base station is located in the preset range around the street lamp and receives and buffers the scanned broadcast information and signal strength thereof sent by each single-lamp controller before receiving the input street lamp code of the street lamp, various processing and storage resources and the like in the portable base station are wasted. Therefore, in this embodiment, only after the portable base station is located within the preset range around the street lamp and receives the input street lamp code of the street lamp, the broadcast information and the signal strength thereof sent by each single-lamp controller are scanned and acquired, thereby improving the utilization efficiency of resources.

Preferably, after step s3, the method further includes: and the back-end management platform returns a binding completion prompt to the portable base station for displaying.

It can be understood that, because the user is required to input the street lamp code in the portable base station, the user needs to be informed of binding to complete after the binding operation of one street lamp is completed, so that the user can conveniently and continuously move to the vicinity of the next street lamp to bind the next street lamp, the situation that the user waits for a long time is avoided, and the convenience of the user is improved.

Moreover, due to the problem of signal quality received by the backend management platform or the problem of procedure handling of the backend management platform, a situation of binding failure may occur, and in this case, if the user continues to bind the next street lamp, the binding data stored in the backend management platform may be incomplete, and the user needs to subsequently return to the street lamp for binding operation, which is poor in convenience. Therefore, in order to avoid the situation, a user can conveniently know the binding situation in time, the back-end management platform can also send a binding failure prompt to the portable base station to display, so that the situation that the user leaves the range of the current street lamp under the condition of binding failure is avoided, and the user can perform next binding operation in situ in time after seeing the binding failure prompt, the integrity of the binding data stored in the back-end management platform is ensured as far as possible, the reciprocating movement of the user is reduced, and the convenience and the processing efficiency of the user are improved.

In a preferred embodiment, after receiving the broadcast information and the signal strength thereof sent by each single lamp controller and the input street lamp code, the portable base station further comprises: and the portable base station displays the received broadcast information sent by each single lamp controller, the signal intensity of the broadcast information and the input street lamp codes.

It can be understood that after the user inputs the street lamp code, the user usually needs to check whether the input is correct, so as to avoid the subsequent situation of binding error. Moreover, by checking the received broadcast information and the signal intensity thereof, the user can also know which street lamp is closest to the user to a certain extent, so that the user can conveniently further check whether the street lamp code input by the user is the serial number of the street lamp closest to the user, the problem caused by the input error of the street lamp code is reduced, and the reliability is improved.

Preferably, a long-distance radio lora module is arranged in the single-lamp controller, the signal strength is the RSSI value of the lora received signal strength, and a lora gateway is arranged in the portable base station.

It can be understood that lora (Long Range Radio), which is a low power consumption local area network wireless standard, has a longer propagation distance than other wireless methods under the same power consumption condition, and realizes the unification of low power consumption and Long distance. Therefore, the invention transmits the broadcast information through the lora module and the lora gateway, ensures that the portable base station can receive the broadcast information sent by the single lamp controller as far as possible, improves the reliability of signal transmission and reduces the energy consumption of the single lamp controller by the transmission of the broadcast information.

The invention also provides a street lamp system, which is shown in fig. 4, and fig. 4 is a schematic structural diagram of the street lamp system provided by the invention. The street lamp system comprises a plurality of single lamp controllers, a base station and a rear end management platform;

the single lamp controller 1 is used for broadcasting broadcast information carrying self ID codes after self installation is finished;

the portable base station 2 is used for receiving the broadcast information and the signal intensity thereof sent by each single lamp controller 1 and the input street lamp code of the street lamp within a preset range around the street lamp, and then sending the broadcast information and the signal intensity thereof sent by each single lamp controller 1 and the input street lamp code of the street lamp to the rear end management platform 3;

and the rear end management platform 3 is used for screening the broadcast information with the maximum signal intensity, reading the ID code contained in the broadcast information, and binding the read ID code with the street lamp code.

Preferably, the portable base station 2 is specifically configured to:

receiving broadcast information and signal intensity thereof sent by each single lamp controller 1 in real time; when the mobile terminal is located in a preset range around the street lamp and receives the input street lamp code of the street lamp, the currently received broadcast information and the signal intensity thereof sent by each single lamp controller 1 and the street lamp code are sent to the rear end management platform 3.

Preferably, the backend management platform 3 is also used for: returning a prompt of finishing binding to the portable base station 2;

the portable base station 2 is also configured to display a prompt of completion of the binding returned by the backend management platform 3.

Preferably, a long-distance radio lora module is arranged in the single lamp controller 1, the signal strength is the RSSI value of the lora received signal strength, and a lora gateway is arranged in the portable base station 2.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the system described above may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

The above embodiments are only preferred embodiments of the present invention, and the above embodiments can be combined arbitrarily, and the combined embodiments are also within the scope of the present invention. It should be noted that other modifications and variations that may suggest themselves to persons skilled in the art without departing from the spirit and scope of the invention are intended to be included within the scope of the invention as defined by the appended claims.

It is further noted that, in the present specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (10)

1. A street lamp management method is applied to a street lamp system and is characterized in that the street lamp system comprises a plurality of single lamp controllers, a portable base station and a rear end management platform; the method comprises the following steps:

after the single lamp controller is installed, broadcasting information carrying the ID code of the single lamp controller;

the portable base station is positioned in a preset range around a street lamp, receives broadcast information and signal intensity thereof sent by each single lamp controller and an input street lamp code of the street lamp, and sends the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp to the back-end management platform; the preset range is smaller than half of the street lamp distance;

and the rear-end management platform screens the broadcast information with the maximum signal intensity, reads the ID code contained in the broadcast information, and binds the read ID code with the street lamp code.

2. The method for managing street lamps according to claim 1, wherein the portable base station is located within a preset range around street lamps, and receives the broadcast information and the signal strength thereof sent by each single-lamp controller and the input street lamp code of the street lamps, and then sends the broadcast information and the signal strength thereof sent by each single-lamp controller and the input street lamp code of the street lamps to the back-end management platform, including:

the portable base station receives broadcast information and signal intensity thereof sent by each single lamp controller in real time;

the portable base station is located in a preset range around the street lamp and receives the input street lamp codes of the street lamp, and then sends the currently received broadcast information and the signal intensity thereof sent by each single lamp controller and the street lamp codes to the back-end management platform.

3. The method for managing street lamps according to claim 1, wherein the portable base station is located within a preset range around street lamps, and receives the broadcast information and the signal strength thereof sent by each single-lamp controller and the input street lamp code of the street lamps, and then sends the broadcast information and the signal strength thereof sent by each single-lamp controller and the input street lamp code of the street lamps to the back-end management platform, including:

the portable base station is positioned in a preset range around the street lamp and triggers and scans the surrounding broadcast information after receiving the input street lamp code of the street lamp, and receives the scanned broadcast information and the signal intensity thereof sent by each single lamp controller;

and sending the currently received broadcast information and the signal intensity thereof sent by each single-lamp controller and the street lamp codes to the back-end management platform.

4. The streetlamp management method of claim 1, wherein after the backend management platform binds the read ID code with the streetlamp code, the method further comprises:

and the back-end management platform returns a binding completion prompt to the portable base station for displaying.

5. The streetlamp management method of claim 1, wherein the portable base station, after receiving the broadcast information and the signal strength thereof sent by each single-lamp controller and the input streetlamp code, further comprises:

and the portable base station displays the received broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp codes.

6. The street lamp management method according to any one of claims 1 to 5, wherein a long-distance radio lora module is arranged in the single lamp controller, the signal strength is a lora received signal strength RSSI value, and a lora gateway is arranged in the portable base station.

7. The street lamp system is characterized by comprising a plurality of single lamp controllers, a base station and a rear-end management platform;

the single lamp controller is used for broadcasting broadcast information carrying self ID codes after self installation is finished;

the portable base station is arranged in a preset range around a street lamp, receives the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp, and sends the broadcast information and the signal intensity thereof sent by each single lamp controller and the input street lamp code of the street lamp to the back-end management platform;

and the rear-end management platform is used for screening the broadcast information with the maximum signal intensity, reading the ID code contained in the broadcast information and binding the read ID code with the street lamp code.

8. The street lamp system of claim 7, wherein the portable base station is specifically configured to:

receiving broadcast information and signal intensity thereof sent by each single lamp controller in real time; and when the single lamp controller is positioned in a preset range around the street lamp and receives the input street lamp code of the street lamp, the currently received broadcast information and the signal intensity thereof sent by each single lamp controller and the street lamp code are sent to the back-end management platform.

9. The street light system of claim 7, wherein the backend management platform is further configured to: returning a prompt of completing binding to the portable base station;

and the portable base station is also used for displaying a prompt of binding completion returned by the back-end management platform.

10. The streetlamp system according to any one of claims 7 to 9, wherein a long-range radio lora module is disposed in the single-lamp controller, the signal strength is a lora received signal strength RSSI value, and a lora gateway is disposed in the portable base station.

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