CN117714492B

CN117714492B - Street lamp networking management method and system

Info

Publication number: CN117714492B
Application number: CN202311731447.1A
Authority: CN
Inventors: 李超; 赵华
Original assignee: Yancheng Street Lamp Management Office; Nupt Institute Of Big Data Research At Yancheng
Current assignee: Yancheng Street Lamp Management Office; Nupt Institute Of Big Data Research At Yancheng
Priority date: 2023-12-14
Filing date: 2023-12-14
Publication date: 2024-06-07
Anticipated expiration: 2043-12-14
Also published as: CN117714492A

Abstract

The invention provides a street lamp networking management method and system, comprising the following steps: periodically broadcasting a networking request to the street lamp terminal, and constructing a street lamp networking based on configuration parameters fed back by the management terminal according to the networking request; acquiring equipment state information of different road lamp terminals, constructing a road lamp networking visual interface based on the equipment state information, and transmitting the visual interface to an maintainer terminal; acquiring real-time position parameters of maintenance personnel terminals, and determining the relative position relation between different maintenance personnel and each street lamp terminal in the street lamp networking based on the real-time position parameters and the street lamp networking visual interface; and determining a street lamp terminal set to be maintained by different overhaulers based on the relative position relation, and displaying the corresponding street lamp terminal set to be maintained in a street lamp networking visual interface for differential marking based on the identity information of the overhaulers. The high efficiency and the reliability of maintenance work arrangement of maintenance personnel are improved, and the maintenance effect of the road lamp terminal is guaranteed.

Description

Street lamp networking management method and system

Technical Field

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

Background

The street lamp networking management refers to a method for connecting a plurality of street lamps through a network to realize centralized control, monitoring and management of the street lamps, and is applied to various different street lamp service management aspects, wherein street lamp maintenance management is one of the street lamp service management aspects;

At present, when maintenance and management are carried out on the street lamp, workers are required to manually collect operation data of the street lamp and manually analyze the collected operation data, so that the operation state of the street lamp is confirmed, the data collection efficiency is low due to the fact that the manual participation is required, the operation state analysis accuracy is low, meanwhile, maintenance objects of various maintenance personnel cannot be arranged rapidly and reasonably when maintenance is carried out on the street lamp due to the fact that the manual participation is required, and therefore the maintenance and management effects of the street lamp are greatly reduced;

Therefore, in order to overcome the defects, the invention provides a street lamp networking management method and system.

Disclosure of Invention

The invention provides a street lamp networking management method and system, which are used for conveniently and simultaneously managing a plurality of street lamps by networking street lamp terminals in a target area, secondly, acquiring equipment state information of different street lamp terminals through street lamp networking, improving the high efficiency of data acquisition and the accuracy of determination of the equipment state information, simultaneously, constructing a street lamp networking visual interface, transmitting the street lamp networking visual interface to an maintainer terminal, facilitating the maintainer to check the running condition of each street lamp terminal only when the maintainer is convenient, and finally, realizing accurate and effective distribution of street lamp terminal sets which are required to be maintained correspondingly by different maintainers according to the position parameters by acquiring real-time position parameters of the maintainer, thereby improving the high efficiency and reliability of maintenance work arrangement of the maintainer and guaranteeing the maintenance effect of the street lamp terminal.

The invention provides a street lamp networking management method, which comprises the following steps:

Step 1: periodically broadcasting a networking request to the street lamp terminals in the target area based on the management terminal, and constructing a street lamp networking based on configuration parameters fed back by the management terminal according to the networking request;

Step 2: acquiring equipment state information of different street lamp terminals in real time based on the street lamp networking, constructing a street lamp networking visual interface based on the equipment state information, and transmitting the street lamp networking visual interface to an maintainer terminal;

Step 3: acquiring real-time position parameters of the maintenance personnel terminals based on the transmission result, and determining the relative position relation between different maintenance personnel and each street lamp terminal in the street lamp networking based on the real-time position parameters and the street lamp networking visual interface;

Step 4: and determining a street lamp terminal set to be maintained by different overhaulers based on the relative position relation, and displaying the corresponding street lamp terminal set to be maintained in a street lamp networking visual interface for differential marking based on the identity information of the overhaulers.

Preferably, in step 1, a method for managing street lamp networking periodically sends a networking request to a street lamp terminal in a target area based on a management terminal, including:

Acquiring a networking task generated by a management terminal, analyzing the networking task, and determining a target area of the street lamp to be networked;

Extracting a region identifier of a target region, matching the region identifier with a preset street lamp terminal record table, and determining the street lamp terminals existing in the target region based on a matching result;

Sending a networking instruction to a gateway in a target area based on a management terminal, triggering the gateway to generate a networking request based on the networking instruction, determining a time interval for sending the networking request to a street lamp terminal in the target area based on a preset networking requirement, and performing parameter adjustment on a clock generator based on the time interval;

And controlling the gateway to periodically broadcast a networking request to the street lamp terminals in the target area according to the clock generator based on the parameter adjustment result.

Preferably, in step 1, a street lamp networking is constructed based on configuration parameters fed back by a management terminal according to a street lamp terminal in a networking request, which comprises the following steps:

After each broadcast networking request is acquired, the streetlight terminal in the target area feeds back configuration parameters to the management terminal, the configuration parameters are analyzed, and the position node address of the streetlight terminal is determined;

Constructing a registry based on the management terminal, filling the location node address into the registry, determining the quantity of the fed back street lamp terminals based on the filling result, configuring the street lamp terminal number for each street lamp terminal based on the management terminal according to the location node address after the quantity of the fed back street lamp terminals is equal to the reference quantity of the street lamp terminals in the target area, and stopping periodic broadcasting the networking request, otherwise, continuing to periodically broadcasting the networking request until the quantity of the fed back street lamp terminals is equal to the reference quantity of the street lamp terminals in the target area;

And (3) sequentially associating each road lamp terminal according to the road lamp terminal number based on the gateway in the target area, and obtaining a road lamp networking based on the association result.

Preferably, a street lamp networking management method analyzes configuration parameters to determine a position node address of a street lamp terminal, including:

obtaining configuration parameters of each lamp terminal, and performing text conversion on the configuration parameters to obtain text data corresponding to the configuration parameters;

splitting text data to obtain N text words, taking a preset position characteristic index as a class center of a position node address, and respectively determining the hamming distance between each text word and the class center;

Summarizing text words with hamming distance smaller than a preset distance threshold, extracting key sensitive words based on the summarizing result, and obtaining the position node address corresponding to each lamp terminal based on the target semantics of the key sensitive words.

Preferably, in step 2, equipment state information of different street lamp terminals is obtained in real time based on street lamp networking, and a street lamp networking visual interface is constructed based on the equipment state information, which comprises the following steps:

Acquiring coverage characteristics of a road lamp networking in a target area, determining distribution characteristics of different road lamp terminals in the target area based on the coverage characteristics, and dividing the road lamp networking into areas based on the distribution characteristics to obtain sub road lamp networking;

extracting position information of different street lamp terminals in the sub street lamp networking, determining a target street lamp terminal corresponding to each sub street lamp networking center based on the position information, and configuring the target street lamp terminal as a regional server;

The method comprises the steps that a first information acquisition request is sent to a gateway of a target area based on a management terminal, the received first information acquisition request is synchronously forwarded to an area server in each sub-street lamp networking based on the gateway, meanwhile, a second information acquisition request is sent to each street lamp terminal in the corresponding sub-street lamp networking based on the area server, and equipment state information fed back by each street lamp terminal is received in real time according to a communication interconnection protocol in the sub-street lamp networking based on a sending result;

The method comprises the steps that the received equipment state information is subjected to area encapsulation based on an area server to obtain an area equipment state information set, and the area equipment state information set is forwarded to a management terminal based on a gateway of a target area;

analyzing the received regional equipment state information set based on the management terminal, and associating the equipment state information of each path of lamp terminal with corresponding position information based on an analysis result;

configuring a simulation display identifier for each street lamp terminal based on the association result, and determining the topology structure of the simulation display identifier corresponding to each street lamp terminal in the visual interface area based on the position information of each street lamp terminal;

Mapping each simulation display identifier to a visual interface area based on a topological structure, and obtaining a road lamp networking visual interface based on a mapping result.

Preferably, in step 2, a street lamp networking visual interface is transmitted to an maintainer terminal, including:

The method comprises the steps of obtaining a communication address and terminal configuration information of an maintainer terminal, and determining communication requirements of different maintainer terminals based on the terminal configuration information, wherein the communication requirements comprise port types of the maintainer terminal and limiting parameters of data formats, and the maintainer terminal is at least one;

constructing a distributed communication link between the management terminal and each maintainer terminal based on the communication address, and performing protocol adaptation on the distributed communication link based on the communication requirement;

And uploading the street lamp networking visual interface to a transmission queue of a corresponding target communication link in the distributed communication links based on the adapting result, and synchronously transmitting the street lamp networking visual interface to each maintainer terminal based on the uploading result.

Preferably, in step 3, a real-time position parameter of a terminal of an maintainer is obtained based on a transmission result, and a relative position relationship between different maintainers and each street lamp terminal in a street lamp networking is determined based on the real-time position parameter and a street lamp networking visual interface, which comprises the following steps:

Generating a position acquisition request based on the management terminal, synchronously transmitting the position acquisition request to the maintenance personnel terminal based on a road lamp networking visual interface transmission process, and simultaneously acquiring real-time position parameters corresponding to the maintenance personnel terminal based on a transmission result and transmitting the real-time position parameters back to the management terminal;

Analyzing real-time position parameters of each maintainer terminal based on the management terminal, and obtaining geographic position coordinates of each maintainer terminal based on analysis results;

Converting the geographic position coordinates of the maintenance personnel terminal into image coordinates according to the coordinate conversion rule, and mapping the image coordinates to a street lamp networking visual interface;

and obtaining the relative position relation between each maintainer and each street lamp terminal in the street lamp networking based on the mapping result, wherein the maintainers correspond to the maintainer terminals one by one.

Preferably, in step 4, a street lamp terminal set to be maintained by different maintainers is determined based on a relative position relationship, and the corresponding street lamp terminal set to be maintained is displayed in a street lamp networking visual interface in a differential mark manner based on identity information of the maintainers, which comprises the following steps:

Acquiring the relative position relation between each maintainer and each street lamp terminal in the street lamp networking, and simultaneously acquiring the corresponding working time period, the maintenance speed of the street lamp terminal in the working time period and the moving speed in the street lamp networking, and taking the working time period, the maintenance speed of the street lamp terminal in the working time period and the moving speed in the street lamp networking as target constraint conditions;

Analyzing the relative positions based on the target constraint conditions, and determining the overhaul coverage of each maintainer in the target time period based on analysis results;

Overlapping and comparing the overhaul coverage with the distribution range of the road lamp terminals in the road lamp networking, and determining whether the overhaul coverage of each maintainer in the target time period can completely cover the distribution range of the road lamp terminals or not based on the overlapping and comparing result;

When the coverage is complete, the streetlamp terminals in the overhaul coverage of each maintainer are judged to be a streetlamp terminal set with the required dimension;

when the coverage is not complete, determining a target clearance area between overhaul coverage areas of all overhaulers, and performing periodic traversal distribution on the street lamp terminals in the target clearance area based on adjacent overhaulers of the target clearance area until the distribution of the street lamp terminals in the target clearance area is completed;

Summarizing the street lamp terminals in the overhaul coverage of each maintainer and the street lamp terminals periodically traversed and distributed in the target clearance area to obtain a street lamp terminal set to be maintained by each maintainer;

the identity information of each maintainer is extracted, an exclusive label of each maintainer is generated based on the identity information, and the streetlight terminals which are required to be maintained and are corresponding to each maintainer are collected in the streetlight networking visual interface based on the exclusive label to carry out differential mark display.

Preferably, a street lamp networking management method, based on a dedicated label, gathers the street lamp terminals corresponding to each maintainer to be maintained in a street lamp networking visual interface for differential mark display, includes:

generating maintenance monitoring threads based on the management terminals, monitoring the maintenance process of each maintainer in real time based on the maintenance monitoring threads, and obtaining the maintenance process of each maintainer on each lamp terminal based on monitoring results;

Determining maintenance completion degree of the street lamp terminal based on the maintenance process, extracting terminal identity of the current street lamp terminal after maintenance is finished, and positioning a corresponding simulation terminal on a street lamp networking visual interface based on the terminal identity;

Based on the positioning result, updating the state of the simulation terminal into a maintenance completed state in the street lamp networking visual interface, and completing real-time synchronous updating of the state of the street lamp terminal.

The invention provides a street lamp networking management system, which comprises:

the networking construction module is used for periodically broadcasting a networking request to the street lamp terminals in the target area based on the management terminal, and constructing a street lamp networking based on the management terminal according to the configuration parameters fed back by the street lamp terminals under the networking request;

The visual interface construction and transmission module is used for acquiring the equipment state information of different road lamp terminals in real time based on the road lamp networking, constructing a road lamp networking visual interface based on the equipment state information, and transmitting the road lamp networking visual interface to the maintenance personnel terminal;

The position determining module is used for acquiring real-time position parameters of the maintenance personnel terminals based on the transmission result, and determining the relative position relation between different maintenance personnel and each street lamp terminal in the street lamp networking based on the real-time position parameters and the street lamp networking visual interface;

the street lamp maintenance management module is used for determining street lamp terminal sets to be maintained by different maintainers based on the relative position relation, and displaying difference marks of the corresponding street lamp terminal sets to be maintained in the street lamp networking visual interface based on the identity information of the maintainers.

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

1. The street lamp terminals in the target area are networked, convenience is provided for managing a plurality of street lamps simultaneously, secondly, equipment state information of different street lamp terminals is acquired through street lamp networking, the high efficiency of data acquisition and the accuracy of determination of the equipment state information are improved, meanwhile, a street lamp networking visual interface is constructed, the street lamp networking visual interface is transmitted to the maintenance personnel terminals, the maintenance personnel can conveniently check the running condition of each street lamp terminal conveniently, and finally, accurate and effective distribution of street lamp terminal sets which are required to be maintained and correspond to different maintenance personnel according to the position parameters is realized through acquisition of real-time position parameters of the maintenance personnel, and the high efficiency and reliability of maintenance work arrangement of the maintenance personnel are improved.

2. The coverage characteristics of the road lamp networking and the distribution characteristics of the road lamp terminals under the coverage characteristics are determined, so that the road lamp networking is divided, the equipment state information of different road lamp terminals is effectively collected, the target road lamp terminals are selected from each sub-road lamp networking according to the division result, the target road lamp terminals are used as regional servers, the information collection requests are issued to the corresponding road lamp terminals through the gateway and the regional servers of the target areas, the equipment state information fed back by the road lamp terminals is accurately and effectively received, the road lamp networking visual interface is conveniently constructed according to the equipment state information of different road lamp terminals, finally, the equipment state information of the road lamp terminals is correlated with the corresponding position information, the simulation display identification corresponding to each road lamp terminal is generated according to the correlation result, the effective construction of the road lamp networking visual interface is finally realized, the accuracy of the construction of the road lamp networking visual interface is ensured, the work arrangement of maintenance personnel is also facilitated according to the road lamp networking visual interface, and the reliability of the road lamp terminals is further improved, and the reliability of task allocation is guaranteed.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a flowchart of a street lamp networking management method in an embodiment of the invention;

Fig. 2 is a flowchart of step 1 in a street lamp networking management method according to an embodiment of the present invention;

fig. 3 is a block diagram of a street lamp networking management system according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

The embodiment provides a street lamp networking management method, as shown in fig. 1, including:

In this embodiment, the target area is known in advance, that is, an area where street lamp management is required, where the street lamp terminals are all street lamps in the target area.

In this embodiment, the periodic broadcast networking request refers to intermittently sending a networking request, that is, sending a networking request once to a target area after a period of time, where the networking request is used to request connection between street lamp terminals through a network, so as to facilitate unified access and management of the street lamp terminals.

In this embodiment, the configuration parameters refer to the positions fed back by different street lamp terminals, the types of the street lamp terminals, and the communication modes adopted by the street lamp.

In this embodiment, the street lamp networking refers to a mechanism that can cover all street lamp terminals obtained after connecting all street lamp terminals in a target area through a network.

In this embodiment, the device status information refers to current operation conditions of different street lamp terminals in the street lamp networking, including normal operation, failure, and the like.

In this embodiment, the street lamp networking visual interface refers to a picture in which device state information corresponding to different street lamp terminals in the street lamp networking is displayed in the same display interface.

In this embodiment, the service personnel terminal refers to an intelligent terminal corresponding to the service personnel, and may be, for example, a smart phone or the like.

In this embodiment, the real-time location parameter refers to the current location of the service personnel.

In this embodiment, the street lamp terminal set refers to a street lamp that different service personnel need to maintain in the target area.

In this embodiment, the identity information refers to the name of the service personnel or a tag label or the like capable of representing the identity of the service personnel.

In this embodiment, the differential mark display refers to that the street lamp terminals corresponding to the same maintainer are marked and displayed through different mark symbols, so as to facilitate distinguishing the specific street lamp terminals corresponding to different maintainers and needing maintenance.

The beneficial effects of the technical scheme are as follows: the street lamp terminals in the target area are networked, convenience is provided for managing a plurality of street lamps simultaneously, secondly, equipment state information of different street lamp terminals is acquired through street lamp networking, the high efficiency of data acquisition and the accuracy of determination of the equipment state information are improved, meanwhile, a street lamp networking visual interface is constructed, the street lamp networking visual interface is transmitted to the maintenance personnel terminals, the maintenance personnel can conveniently check the running condition of each street lamp terminal conveniently, and finally, accurate and effective distribution of street lamp terminal sets which are required to be maintained and correspond to different maintenance personnel according to the position parameters is realized through acquisition of real-time position parameters of the maintenance personnel, and the high efficiency and reliability of maintenance work arrangement of the maintenance personnel are improved.

Example 2:

On the basis of embodiment 1, the present embodiment provides a street lamp networking management method, as shown in fig. 2, in step 1, periodically sending a networking request to a street lamp terminal in a target area based on a management terminal, including:

Step 101: acquiring a networking task generated by a management terminal, analyzing the networking task, and determining a target area of the street lamp to be networked;

Step 102: extracting a region identifier of a target region, matching the region identifier with a preset street lamp terminal record table, and determining the street lamp terminals existing in the target region based on a matching result;

step 103: sending a networking instruction to a gateway in a target area based on a management terminal, triggering the gateway to generate a networking request based on the networking instruction, determining a time interval for sending the networking request to a street lamp terminal in the target area based on a preset networking requirement, and performing parameter adjustment on a clock generator based on the time interval;

step 104: and controlling the gateway to periodically broadcast a networking request to the street lamp terminals in the target area according to the clock generator based on the parameter adjustment result.

In this embodiment, the networking task is generated by the management terminal and is used to characterize the area where networking is required and all the street lamp terminals in the area.

In this embodiment, the area identifier is a marking symbol for marking different target areas, and the area identifiers corresponding to the different areas are different.

In this embodiment, the preset streetlamp terminal record table is set in advance, and is used for recording all the streetlamp terminals existing in different areas.

In this embodiment, the gateway is a general server in the target area, and functions as data receiving and forwarding.

In this embodiment, the preset networking requirements are set in advance, and are used to define a time interval for sending the networking request to the target area.

In this embodiment, the purpose of parameter adjustment of the clock generator based on the time interval is to set the operating frequency of the transmitter at all times, so as to achieve the generation of the trigger signal at the respective time interval.

The beneficial effects of the technical scheme are as follows: the networking task generated by the management terminal is analyzed, so that the target area of the street lamps to be networked and all street lamp terminals existing in the target area are accurately and effectively determined, the time interval for sending the networking request is locked through the preset networking requirement, and finally, the periodic broadcasting networking request is generated according to the determined time interval, so that accurate and reliable networking operation is conveniently performed on all street lamp terminals in the target area, corresponding maintenance and management are conveniently performed on the street lamp terminals in the target area, and the maintenance and management effect is improved.

Example 3:

on the basis of embodiment 1, the present embodiment provides a street lamp networking management method, in step 1, a street lamp networking is constructed based on configuration parameters fed back by a management terminal according to a street lamp terminal in a networking request, including:

In this embodiment, the location node address refers to a specific node corresponding to a different street lamp terminal when performing network communication in the street lamp networking and a specific location condition of the node in the street lamp networking.

In this embodiment, the registry is a report for recording the location node addresses of different road lamp terminals.

In this embodiment, the number of the fed back street lamp terminals refers to all street lamp terminals in the target area that have received the networking request.

In this embodiment, the reference number refers to the total number of all street lamp terminals contained in the target area, which is known in advance.

In this embodiment, the street lamp terminal number is the identity information allocated to each street lamp terminal by the management terminal, so that it is convenient to distinguish different street lamp terminals.

The beneficial effects of the technical scheme are as follows: the method comprises the steps of analyzing received configuration parameters, accurately and effectively determining the position node addresses of different street lamp terminals, recording the obtained position node addresses in a constructed registry, effectively confirming the number of street lamp terminals in a target area, which have received networking requests, according to recording results, and finally, after all street lamp terminals receive the networking requests, sequentially associating the street lamp terminals in the target area, so that accurate and reliable construction of street lamp networking is realized, convenience is provided for maintenance management of the street lamp terminals, and the accuracy and the high efficiency of street lamp terminal maintenance are ensured.

Example 4:

On the basis of embodiment 3, the present embodiment provides a street lamp networking management method, which analyzes configuration parameters to determine a location node address of a street lamp terminal, including:

In this embodiment, the text data refers to data obtained after format conversion of configuration parameters of each street lamp terminal, and the purpose of format conversion is to accurately analyze the configuration parameters and extract location node address information corresponding to the street lamp terminal from the configuration parameters.

In this embodiment, the text vocabulary refers to splitting the obtained text data to obtain the data segment.

In this embodiment, the preset location feature index is set in advance, and is used to characterize the data parameter related to the location node address information, so as to extract the data related to the location node address information in the text vocabulary according to the preset location feature index.

In this embodiment, the class center is used to classify the data belonging to the location node address information, so as to accurately and effectively confirm the location node addresses of different road lamp terminals.

In this embodiment, the hamming distance is a distance used to characterize different text words from a preset location feature index, and a shorter hamming distance indicates that the location node address category is easier to classify.

In this embodiment, the preset distance threshold is set in advance, and is used to characterize the minimum requirement for meeting the address class of the location node.

In this embodiment, the keyword sensitive words refer to data parameters in the text vocabulary that can directly indicate the location node address.

The beneficial effects of the technical scheme are as follows: by converting the text of the obtained configuration parameters, the text data are accurately and effectively obtained, the text data are split, the text vocabulary obtained after the splitting is processed, and the key sensitive words related to the position node addresses in the configuration parameters are accurately and effectively extracted, so that the position node addresses of different road lamp terminals in the road lamp networking are effectively confirmed, and the accuracy and the reliability of the road lamp networking are improved.

Example 5:

On the basis of embodiment 1, the present embodiment provides a street lamp networking management method, in step2, equipment state information of different street lamp terminals is obtained in real time based on a street lamp networking, and a street lamp networking visual interface is constructed based on the equipment state information, including:

In this embodiment, the coverage characteristics of the street lamp networking refer to the coverage area of the street lamp networking, the shape of the coverage area, and the like.

In this embodiment, the distribution feature refers to the position distribution situation of different street lamp terminals in the coverage area of the street lamp terminal, and is used to characterize the specific position situation of different street lamp terminals.

In this embodiment, the sub-street lamp networking refers to a plurality of different areas obtained after the street lamp networking is divided into areas according to the distribution characteristics, and the area division of the street lamp networking according to the distribution characteristics may be to divide the street lamp networking according to the positions of each street lamp terminal and the number of street lamp terminals that each sub-street lamp area can contain, which are determined according to the principle of nearby.

In this embodiment, the target streetlamp terminals refer to streetlamp terminals corresponding to the central position in each sub-streetlamp network, and only one target streetlamp terminal is in each sub-streetlamp network.

In this embodiment, the area server refers to a function of using a street lamp terminal located in a sub street lamp networking center as a data forwarding and receiving server of a current sub street lamp networking area, and is used for forwarding operation data of other street lamp terminals in the current sub street lamp networking to the management terminal.

In this embodiment, the first information acquisition request is generated by the management terminal and is used for sending the first information acquisition request to the total gateway corresponding to the street lamp networking area, so as to send the first information acquisition request to each street lamp terminal through the gateway.

In this embodiment, the second information acquisition request refers to an information acquisition request sent by each regional server to a street lamp terminal in a region after the gateway issues the received first information acquisition request to the regional server of each sub street lamp networking, and the information acquisition request directly acts on the street lamp terminal in each sub street lamp networking.

In this embodiment, the communication interconnection protocol is known in advance, and is used to define a communication mode between the streetlight terminals in the sub-streetlight network.

In this embodiment, the area encapsulation refers to binding the device status information of all the street lamp terminals in each sub street lamp networking, so as to ensure that the device information of the street lamp terminals in each sub street lamp networking is collected, where the area device status information set is the result obtained after the device status information of all the street lamp terminals in each sub street lamp networking is encapsulated.

In this embodiment, associating the device status information of each street lamp terminal with the corresponding location information refers to corresponding binding the device status corresponding to each street lamp terminal with the corresponding location information, so as to facilitate displaying the device status information of different street lamp terminals at corresponding locations in the street lamp networking visual interface according to the location information.

In this embodiment, the analog display identifier refers to an identifier that is displayed in the street lamp networking visual interface by using a virtual identifier instead of the street lamp terminal.

In the embodiment, the topological structure is used for representing the position association relation among different street lamp networking, so that accurate position display of different street lamp terminals in a street lamp networking visual interface is ensured, and maintenance task allocation is conveniently carried out on overhaulers.

The beneficial effects of the technical scheme are as follows: the coverage characteristics of the road lamp networking and the distribution characteristics of the road lamp terminals under the coverage characteristics are determined, so that the road lamp networking is divided, the equipment state information of different road lamp terminals is effectively collected, the target road lamp terminals are selected from each sub-road lamp networking according to the division result, the target road lamp terminals are used as regional servers, the information collection requests are issued to the corresponding road lamp terminals through the gateway and the regional servers of the target areas, the equipment state information fed back by the road lamp terminals is accurately and effectively received, the road lamp networking visual interface is conveniently constructed according to the equipment state information of different road lamp terminals, finally, the equipment state information of the road lamp terminals is correlated with the corresponding position information, the simulation display identification corresponding to each road lamp terminal is generated according to the correlation result, the effective construction of the road lamp networking visual interface is finally realized, the accuracy of the construction of the road lamp networking visual interface is ensured, the work arrangement of maintenance personnel is also facilitated according to the road lamp networking visual interface, and the reliability of the road lamp terminals is further improved, and the reliability of task allocation is guaranteed.

Example 6:

On the basis of embodiment 1, the present embodiment provides a street lamp networking management method, in step 2, a street lamp networking visual interface is transmitted to an maintainer terminal, including:

In this embodiment, the terminal configuration information refers to a communication protocol adopted by the service personnel terminal, a requirement of a communication data format, and the like.

In this embodiment, the protocol adaptation refers to adjusting the data transmission parameters of the distributed communication link according to the communication requirements, so as to ensure that the communication requirements can be met, for example, adjusting the transmission bandwidth and the data transmission format.

In this embodiment, the target communication link refers to a communication link corresponding to each service personnel terminal in the distributed communication links, and is one of the distributed communication links.

The beneficial effects of the technical scheme are as follows: the communication address and the terminal configuration information of the maintenance personnel terminals are determined, so that the communication requirements of different maintenance personnel terminals are accurately and effectively determined, a distributed communication link is built through the communication address, protocol adaptation is carried out on the distributed communication link according to the communication requirements, finally, the road lamp networking visual interface is accurately and effectively transmitted to the corresponding maintenance personnel terminals according to the adaptation result, each maintenance personnel can effectively know the running state of the road lamp according to the maintenance personnel terminals, and the distribution of corresponding maintenance work of the road lamp is facilitated.

Example 7:

on the basis of embodiment 1, the present embodiment provides a street lamp networking management method, in step 3, a real-time position parameter of a maintenance personnel terminal is obtained based on a transmission result, and a relative position relationship between different maintenance personnel and each street lamp terminal in a street lamp networking is determined based on the real-time position parameter and a street lamp networking visual interface, including:

In this embodiment, the location acquisition request is generated by the management terminal, and is used to acquire the real-time location parameter where the management terminal is located.

In this embodiment, the real-time location parameter refers to actual geographical location information of the service personnel terminal, where the service personnel terminal defaults to be in the same location as the service personnel.

In this embodiment, the geographical position coordinates refer to the intersection position of the actual longitude and latitude corresponding to the service personnel terminal.

In this embodiment, the coordinate conversion rule is set in advance, and is used for converting the actual geographic position coordinate into the image coordinate, where the image coordinate is a parameter capable of displaying the terminal position of the maintainer in the image, for example, the image coordinate may be an abscissa, an ordinate, etc.

The beneficial effects of the technical scheme are as follows: the position acquisition request is sent to the maintainer terminal while the visual interface of the road lamp networking is transmitted, so that the real-time position parameters of the maintainer terminal are accurately and effectively acquired, the real-time position parameters are interpreted, the positions of the maintainer terminal are mapped to the visual interface of the road lamp networking according to the analysis result, the relative position relation between each maintainer and each road lamp terminal in the road lamp networking is effectively determined, the distribution of the maintenance work of each maintainer is facilitated, the accuracy and the rationality of the distribution of the maintenance work are improved, the maintenance efficiency of the road lamp is ensured, and the management effect of the road lamp is improved.

Example 8:

On the basis of embodiment 1, the present embodiment provides a street lamp networking management method, in step 4, a street lamp terminal set to be maintained by different maintainers is determined based on a relative position relationship, and a difference mark is displayed on a street lamp networking visual interface by the corresponding street lamp terminal set to be maintained based on identity information of the maintainers, including:

In this embodiment, the working period refers to a working period corresponding to different service personnel, and the working period corresponding to different service personnel may be different.

In the embodiment, the target constraint condition refers to taking the working time periods of different overhauling staff, the overhauling speed of the street lamp terminal in the working time periods and the moving speed in the street lamp networking as reference bases for distributing street lamp maintenance work, so that accurate and effective task distribution is conveniently carried out on each overhauling staff.

In this embodiment, the service coverage area refers to an area range in which each service personnel can perform maintenance work, is determined according to a target constraint condition and a relative position of the service personnel to the street lamp terminal, and specifically may be that an effective distance in which the service personnel can move is determined first according to a working period, a service speed of the street lamp terminal in the working period, and a moving speed in street lamp networking, and the service coverage area is determined according to the moving effective distance.

In this embodiment, the target time period is known in advance, and may be, for example, one day.

In this embodiment, the target clearance area refers to an unallocated street lamp terminal area existing between service coverage areas of adjacent service personnel.

In this embodiment, the cycle traversal allocation refers to sending the streetlight terminals in the target clearance area to adjacent maintenance personnel in turn, so as to ensure that corresponding maintenance operations can be performed on all the streetlight terminals in the target area.

In this embodiment, the dedicated label is generated according to the identity information of the maintainer, and is used for distinguishing and marking the street lamp terminal in the street lamp networking visual interface, so as to facilitate corresponding maintenance operations of different maintainers.

The beneficial effects of the technical scheme are as follows: the method has the advantages that the working time period of each maintainer is determined, the maintenance speed of the road lamp terminal and the moving speed in the road lamp networking are determined, the constraint conditions during task allocation are accurately and effectively determined, the relative positions are analyzed through the target constraint conditions, the road lamp terminals which are required to be maintained by different maintainers are accurately and effectively determined according to the relative positions, and finally, the corresponding exclusive labels are generated according to the identity information of the maintainers, the road lamp terminals are subjected to differential mark display in the road lamp networking visual interface through the exclusive labels, so that the maintainers can conveniently and accurately and effectively distinguish the road lamp terminals which are required to be maintained, the maintenance efficiency and accuracy of the road lamp terminals are guaranteed, and the integral effect of road lamp maintenance management is improved.

Example 9:

On the basis of embodiment 8, the present embodiment provides a street lamp networking management method, which performs differential mark display on a street lamp networking visual interface by collecting street lamp terminals to be maintained corresponding to each maintainer based on a dedicated label, and includes:

In this embodiment, the maintenance monitoring thread is generated by the management terminal and is used for monitoring the maintenance progress of the streetlight terminal by the maintainer in real time.

In this embodiment, the terminal identity refers to a data parameter capable of distinguishing the street lamp terminals, each street lamp terminal corresponds to one terminal identity, and the terminal identities of different street lamp terminals are different, for example, may be numbers or the like.

In this embodiment, the analog terminals refer to virtual display terminals corresponding to the street lamp terminals one by one in the street lamp networking visual interface.

The beneficial effects of the technical scheme are as follows: the maintenance monitoring thread is generated through the management terminal, so that maintenance progress of each street lamp terminal is monitored in real time by maintenance monitoring thread, maintenance completion degree of the street lamp terminal is effectively confirmed conveniently, and after maintenance is completed, the state of the street lamp terminal is synchronously updated in real time in the street lamp networking visual interface, so that maintenance and management effects of the street lamps are improved.

10. A street lamp networking management system, comprising:

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. The street lamp networking management method is characterized by comprising the following steps of:

Step 4: determining a street lamp terminal set to be maintained by different overhaulers based on the relative position relation, and displaying the corresponding street lamp terminal set to be maintained in a street lamp networking visual interface for differential marking based on the identity information of the overhaulers;

In step 4, a set of street lamp terminals to be maintained by different maintainers is determined based on a relative position relationship, and the corresponding set of street lamp terminals to be maintained is displayed in a street lamp networking visual interface based on identity information of the maintainers, including:

2. The street lamp networking management method according to claim 1, wherein in step 1, the periodically sending a networking request to the street lamp terminals in the target area based on the management terminal comprises:

3. The street lamp networking management method according to claim 1, wherein in step 1, the street lamp networking is constructed based on the configuration parameters fed back by the management terminal according to the street lamp terminal in the networking request, and the method comprises the following steps:

4. A street lamp networking management method according to claim 3, wherein the analyzing the configuration parameter to determine the location node address of the street lamp terminal comprises:

5. The street lamp networking management method according to claim 1, wherein in step 2, device state information of different street lamp terminals is obtained in real time based on street lamp networking, and a street lamp networking visual interface is constructed based on the device state information, and the method comprises the following steps:

6. The street lamp networking management method according to claim 1, wherein in step 2, the street lamp networking visual interface is transmitted to an maintainer terminal, and the method comprises the following steps:

7. The street lamp networking management method according to claim 1, wherein in step 3, the real-time position parameters of the maintenance personnel terminals are obtained based on the transmission result, and the relative position relationship between different maintenance personnel and each street lamp terminal in the street lamp networking is determined based on the real-time position parameters and the street lamp networking visual interface, comprising:

8. The street lamp networking management method according to claim 1, wherein the step of displaying the difference mark of the street lamp terminal set to be maintained by each maintainer in the street lamp networking visual interface based on the exclusive label comprises the following steps:

9. A street lamp networking management system, comprising:

the street lamp maintenance management module is used for determining street lamp terminal sets to be maintained by different maintenance staff based on the relative position relation, and displaying difference marks of the corresponding street lamp terminal sets to be maintained in a street lamp networking visual interface based on the identity information of the maintenance staff;

Wherein, street lamp maintenance management module includes: