CN112465398B - Statistical method, statistical system, server and storage device for urban street lamp lighting rate - Google Patents

Abstract

The application provides a statistical method of the lighting rate of urban street lamps, and also provides a corresponding statistical system, a server and storage equipment; the method is suitable for being executed in computer equipment, in the method, when the server counts the lighting rate of the urban street lamps, if the area to be counted is the lighting area currently, a lighting blacklist of the area is obtained, the lighting rate of the street lamps in the area to be counted is counted according to the lighting blacklist, the lighting blacklist is updated according to the lighting condition in the batch delay counting area, and the counting result is further updated according to the updated lighting blacklist; by the method, the urban street lamp lighting rate can be accurately counted on the premise of avoiding system flood peaks.

Description

Statistical method, statistical system, server and storage device for urban street lamp lighting rate

Technical Field

The application relates to the technical field of urban intelligent lighting, in particular to a statistical method of urban street lamp lighting rate, a corresponding server, a statistical system and storage equipment.

Background

We often evaluate lighting quality in terms of lighting rate statistics while ensuring urban road lighting. The general lighting rate is derived from the notification of the on state of the street lamp controller, namely, the street lamp state is reported when the street lamp is turned on or off, and the lighting rate is counted. Street lamps in large cities are millions of and are all lit or all lit off in a few seconds. Thus, there is a large flood peak, and processing this flood peak requires a large bandwidth, and many servers are processing, which is costly. The street lamp controller is normally closed, namely, the street lamp is bright even if the street lamp controller fails after the street lamp is powered on. Therefore, on the premise of avoiding the flood peak of the system, how to count the lighting rate of the urban street lamp is a problem to be solved.

Disclosure of Invention

The invention aims to solve the problem of statistics of the lighting rate of the urban street lamp on the premise of avoiding system flood peaks, and provides a statistical method of the lighting rate of the urban street lamp, a corresponding server and a corresponding system; according to the scheme, flood peaks in urban lighting and lighting can be reduced, so that cloud bandwidth and the number of servers are reduced, and cost is saved.

To solve the above technical problem, the present application provides a statistical method for lighting rate of urban street lamps, which is suitable for being executed in a computing device, and as one embodiment, the method includes:

when the server counts the lighting rate of the urban street lamp, firstly judging whether the area to be counted is the current lighting area;

if the area to be counted is judged to be the current lighting area, a lighting blacklist of the area to be counted is obtained, and the lighting blacklist records the street lamps which are required to be lighted but not lighted or unstable in the lighting period in each area of the city;

calculating the street lamp lighting rate of the area according to the lighting blacklist;

counting the lighting condition of the street lamp equipment in batches in a time-delay mode;

updating the bright lamp blacklist;

and continuously executing the step of counting the lighting rate of the urban street lamp until the counting is finished.

Further, the step of counting the lighting condition of the street lamp equipment in batches comprises the following steps:

inquiring the lighting state of street lamp equipment which is not in a lighting blacklist at a preset frequency;

judging whether the street lamp equipment is in an unlit state or not when inquiring each time;

and if the street lamp equipment is in an unlit state, adding 1 to unlit times of the street lamp equipment.

Further, the step of updating the bright light blacklist includes:

judging whether the number of times of non-lighting reaches a preset value;

and if the number of times of unlit reaches a preset value, the street lamp equipment is moved into the lit black list.

Further, after the step of moving the street lamp equipment into the bright lamp blacklist, the method further comprises the following steps:

and resetting the unlit times of the street lamp equipment.

Further, the step of counting the lighting condition of the street lamp equipment in a delayed batch mode further comprises the following steps:

inquiring the lighting state of the street lamp equipment in the lighting blacklist at a preset frequency;

judging whether the street lamp equipment is in a lighting state or not when inquiring each time;

and if the street lamp equipment is in a lighting state, adding 1 to the lighting times of the street lamp equipment.

Further, the step of determining whether the street lamp device is in a lighting state further includes:

and if the street lamp equipment is in a non-lighting state, resetting the lighting times of the street lamp equipment.

Further, the step of updating the light blacklist further includes:

judging whether the number of times of lighting reaches a preset numerical value or not;

and if the number of times of lighting reaches a preset value, the street lamp equipment is moved out of the lighting blacklist.

In order to solve the above technical problem, the present application further provides a storage device, as one implementation manner, the storage device stores a plurality of instructions, where the instructions are suitable for being loaded and executed by a processor, where the instructions are described in the foregoing statistical method of urban street lamp lighting rate.

In order to solve the above technical problem, the present application further provides a server, as one embodiment, the server includes:

a processor adapted to implement instructions; and

a storage device adapted to store a plurality of instructions adapted to be loaded and executed by the processor as described in the statistical method of urban street lamp lighting rates described previously.

In order to solve the above technical problem, the present application further provides a statistical system for lighting rate of urban street lamps, as one implementation manner, the system includes a plurality of street lamps, and a server as described in the foregoing server, where the plurality of street lamps are in data connection with the server.

According to the statistical method for the urban street lamp lighting rate, when the urban street lamp lighting rate is counted, if the area to be counted is the lighting area currently, a lighting blacklist of the area is obtained, the street lamp lighting rate of the area to be counted is counted according to the lighting blacklist, the lighting blacklist is updated according to the lighting condition in the batch delay counting area, and the statistical result is updated further according to the updated lighting blacklist; by the method, the urban street lamp lighting rate can be accurately counted on the premise of avoiding system flood peaks.

The foregoing description is only an overview of the technical solutions of the present application, and may be implemented according to the content of the specification, so that the foregoing and other objects, features and advantages of the present application can be more clearly understood, and the following detailed description of the preferred embodiments will be given with reference to the accompanying drawings.

Drawings

Fig. 1 is a data flow diagram of a statistical method for lighting rate of an urban street lamp according to an embodiment of the present application.

Fig. 2 is a data flow diagram of a step of counting lighting conditions of street lamp equipment according to time delay batch and updating a lighting blacklist according to the lighting conditions according to the embodiment of the present application.

Fig. 3 is a schematic logic structure diagram of a server according to an embodiment of the present application.

Fig. 4 is a schematic logic structure diagram of a statistical system for lighting rate of an urban street lamp according to an embodiment of the present application.

Detailed Description

In order to further describe the technical means and effects adopted by the present application for achieving the purpose of the predetermined application, the following detailed description of the present application is given with reference to the accompanying drawings and preferred embodiments.

While the present application may be susceptible to further details of embodiments and examples of techniques and effects for achieving the desired purpose, the drawings are provided for reference and illustration only and are not intended to be limiting.

Embodiment one:

referring to fig. 1 and 2, a statistical method for lighting rate of an urban street lamp in the embodiment includes:

101. counting the lighting rate of the urban street lamp;

all street lamps in one city are connected with the server in data, and the server needs to count the lighting rate at regular time so as to maintain the normal lighting rate of the street lamps in the city. The server may count the lighting rate by area when counting the lighting rate, and finally calculate the total lighting rate according to the lighting rate data of each area.

102. Judging whether the area to be counted is a current lighting area or not;

when the server starts to count the lighting rate of the urban street lamp, whether the area to be counted is the current lighting area is judged first, and the counting lighting rate is counted in the period of time when the urban street lamp is lighted. When judging that the area to be counted is the current lighting area, executing step 103 again, otherwise, not counting the lighting rate; the current lighting area is an area that should be lit within a preset lighting time, for example, a street lamp in the preset area a is lit at 30 minutes in the afternoon every day, and if the street lamp lighting rate of the area is counted at 35 minutes in the afternoon, the area is the current lighting area; if the street lamp lighting rate for that area is counted at 20 pm, then that area is not the current lighting area.

103. Acquiring a bright lamp blacklist of an area to be counted;

the server side presets a light blacklist which records the street lamps which should be lighted in the light-on period in each area of the city, but are not lighted or unstable. When the lighting rate of the urban street lamp is counted each time, the state of the street lamp is reported when the urban street lamp is turned on or off, so that huge flood peak is caused. Based on trust, the server defaults that the street lamps which are not in the blacklist of the bright lamps are normally lighted, and the street lamp equipment in the blacklist is the street lamp equipment which cannot be lighted or is unstable in lighted state. And the server acquires a bright blacklist of the area to be counted and counts the bright rate according to the bright blacklist.

104. Calculating the street lamp lighting rate of the area according to the lighting blacklist;

after the server acquires the bright black list, the street lamp lighting rate of the area is calculated according to the street lamps recorded in the bright black list of the area to be counted. The calculation of the lighting rate specifically comprises the following steps:

firstly, calculating the current number of the lights to be lighted: current number of lights to be lit = number of street lamps in area-number of failed street lamps in area;

and calculating the lighting rate: lighting rate = current number of lights already lit/current number of lights to be lit;

wherein, the current number of lights-on=the current number of lights-on-the number of street lamps in the area of the blacklist of lights.

105. Counting the lighting condition of the street lamp equipment in batches in a time-delay mode;

in order to avoid generating data flood peaks, the server inquires the lighting state of the street lamp equipment in batches through time delay and updates a lighting blacklist; delay, namely, query is not carried out when the street lamp is just lighted, but query is started after a period of time; batch, i.e. not all street lamps are queried at the same time, but in batches. Through the delay and batch strategies, the statistics of the lighting rate of the street lamp can be well carried out, and flood peaks of query data can be well avoided.

106. Updating a bright lamp blacklist;

and the server calculates the lighting condition of the street lamp equipment according to the time delay batch, and updates the lighting blacklist.

Referring to fig. 2, further, in another embodiment, the step of counting the lighting conditions of the streetlight equipment in a delayed batch mode and updating the lighting blacklist according to the lighting conditions specifically includes:

201. counting the lighting conditions of the street lamp equipment in batches after starting time delay;

street lamp equipment in the bright black list and street lamp equipment not in the bright black list are counted in a delayed batch counting mode.

Preferably, in order to count the lighting rate timely and accurately, when starting to count the lighting conditions of the street lamp equipment in a delayed batch manner, counting the lighting conditions of the street lamp equipment in a lighting blacklist is completed in batches, and counting the lighting conditions of the street lamp equipment which is not in the lighting blacklist is completed in batches; there is no limitation in this regard.

202. Judging whether the street lamp equipment in the bright lamp blacklist is counted completely or not;

in the embodiment, the lighting conditions of the street lamp equipment in the lighting blacklist are preferably counted preferentially, and the lighting conditions of the street lamp equipment which is not in the lighting blacklist are counted in batches after the street lamp equipment in the lighting blacklist is counted; therefore, it is first determined whether the statistics of the street lamp devices in the bright black list is completed, if the statistics of the street lamp devices in the bright black list is completed, step 203 is executed, otherwise step 208 is executed.

203. Inquiring the lighting state of street lamp equipment which is not in a lighting blacklist at a preset frequency;

the server inquires the lighting state of the street lamp equipment which is not in the lighting blacklist at preset frequency, such as frequency of once every other day; or the inquiry is started after the lighting area is powered on, once every 1 hour, and the like; the query frequency is preset as needed, and is not limited here.

204. Judging whether the street lamp equipment is in an unlit state or not;

and judging whether the street lamp equipment is in an unlit state or not when inquiring each time, if so, executing a step 205, otherwise, executing a step 206.

205. Adding 1 to the number of unlit times of the street lamp equipment;

if it is determined in step 204 that the street lamp is in the non-lighting state, the number of non-lighting times of the street lamp is increased by 1.

206. If the number of times of unlit reaches a preset value, the street lamp equipment is moved into a lit black list;

the method comprises the steps that under the condition that a server locally pre-stores a strategy, namely, street lamp equipment which is not in a bright lamp blacklist is required to be continuously unlit for N times, the street lamp equipment is moved into the bright lamp blacklist; and when judging that the number of times that the street lamp equipment which is not in the bright lamp blacklist is continuously unlit reaches a preset value, moving the street lamp equipment into the bright lamp blacklist. Specific: if the value is 1, the street lamp equipment in the non-bright lamp blacklist is moved into the bright lamp blacklist as long as the street lamp equipment is not lightened again, and if the value is 3, the street lamp equipment is required to be continuously and not lightened for 3 times to be moved into the bright lamp blacklist.

207. Resetting the number of times of non-lighting of the street lamp equipment;

and if the street lamp equipment is moved into the bright lamp blacklist, resetting the number of times of unlit of the street lamp equipment.

208. Inquiring the lighting state of street lamp equipment in a lighting blacklist at a preset frequency;

the server inquires the lighting state of the street lamp equipment in the lighting blacklist at preset frequency, such as frequency of once every other day; or the inquiry is started after the lighting area is powered on, once every 1 hour, and the like; the query frequency is preset as needed, and is not limited here.

209. Judging whether the street lamp equipment is in a lighting state or not;

and judging whether the street lamp equipment is in a lighting state or not when inquiring each time, if so, executing a step 210, otherwise, executing a step 211.

210. Adding 1 to the lighting times of the street lamp equipment;

if it is determined in step 209 that the street lamp device is in a lighting state, the number of lighting times of the street lamp device is increased by 1.

211. Resetting the lighting times of the street lamp equipment;

if it is determined in step 209 that the street lamp equipment is in an unlit state, the number of times of lighting the street lamp equipment is cleared. In this case, the street lamp is lighted in the previous statistics or the previous statistics, and the street lamp is not normally lighted this time, so the lighting times of the previous statistics or the previous statistics are cleared.

212. If the number of times of lighting reaches a preset value, the street lamp equipment is moved out of the lighting blacklist;

under the condition that a server locally pre-stores a strategy, namely that the street lamp equipment in the bright lamp blacklist needs to be continuously lightened N times, the street lamp equipment is moved out of the bright lamp blacklist; and when judging that the continuous lighting times of the street lamp equipment in the lighting blacklist reach the preset value, moving the street lamp equipment out of the lighting blacklist. Specific: if the value is 1, the blacklist can be removed only by lighting the street lamp equipment in the blacklist again, and if the value is 3, the street lamp equipment can be removed only by being continuously lighted for 3 times.

213. The bright light blacklist update is completed.

And after the bright black list is updated, counting the bright rate of the urban street lamp according to the updated bright black list, and updating the bright rate of the urban street lamp until the bright rate statistics is finished.

In this embodiment, the server defaults to the street lamps except the street lamps in the lighting blacklist when counting the lighting rate of the city street lamps based on trust, and the other street lamps are all lighted, and the lighting rate of the city street lamps is counted by continuously updating the lighting blacklist. The method provided by the embodiment can well count the lighting rate of the street lamp and well avoid flood peaks of query data.

Embodiment two:

the storage device in this embodiment includes:

the storage device in this embodiment stores a plurality of instructions suitable for being loaded and executed by the processor, as described in fig. 1 and 2, and the detailed execution process is referred to the foregoing embodiments, which are not repeated herein.

In this embodiment, a plurality of instructions are stored in the storage device, where the instructions include defaulting to the street lamps except the street lamps in the bright black list when counting the bright rate of the urban street lamps, all the other street lamps are turned on, and counting the bright rate of the urban street lamps by continuously updating the bright black list. The method provided by the embodiment can well count the lighting rate of the street lamp and well avoid flood peaks of query data.

Embodiment III:

referring to fig. 3, the server in the present embodiment includes:

a processor 301 adapted to implement instructions; and

the storage device 302 is adapted to store a plurality of instructions, where the instructions are adapted to be loaded and executed by a processor, as described in fig. 1 and 2, and the specific implementation is referred to the foregoing embodiments, and details thereof are not described herein.

In this embodiment, the processor in the server executes the plurality of instructions stored in the storage device, where the instructions include defaulting to the street lamps except the street lamps in the lighting blacklist when counting the lighting rate of the city street lamps, and the other street lamps are all lighted, and counting the lighting rate of the city street lamps by continuously updating the lighting blacklist. The method provided by the embodiment can well count the lighting rate of the street lamp and well avoid flood peaks of query data.

Embodiment four:

referring to fig. 4, a statistical system for lighting rate of urban street lamps in this embodiment includes the servers described in the foregoing embodiments, and a plurality of street lamps connected to the number of servers. The process of executing instructions by the server in the statistical system of the urban street lamp lighting rate in this embodiment is described in detail in the foregoing embodiments, and will not be described in detail here.

The foregoing description is only a preferred embodiment of the present application, and is not intended to limit the invention to the particular embodiment disclosed, but is not intended to limit the invention to the particular embodiment disclosed, as any and all modifications, equivalent to the above-described embodiment, may be made by those skilled in the art without departing from the scope of the invention.

Claims (10)

1. A statistical method of urban street lamp lighting rates, suitable for execution in a computing device, the method comprising the steps of:

when the server counts the lighting rate of the urban street lamp, firstly judging whether the area to be counted is the current lighting area;

if the area to be counted is judged to be the current lighting area, a lighting blacklist of the area to be counted is obtained, and the lighting blacklist records the street lamps which are required to be lighted but not lighted or unstable in the lighting period in each area of the city;

calculating the street lamp lighting rate of the area according to the lighting blacklist;

counting the lighting condition of the street lamp equipment in batches in a time-delay mode;

updating the lighting blacklist according to the lighting condition of the delay batch statistics street lamp equipment;

and continuously executing the step of counting the lighting rate of the urban street lamp until the counting is finished.

2. The method of claim 1, wherein the step of time-lapse batch counting lighting conditions of the street light fixture comprises:

inquiring the lighting state of street lamp equipment which is not in a lighting blacklist at a preset frequency;

judging whether the street lamp equipment is in an unlit state or not when inquiring each time;

and if the street lamp equipment is in an unlit state, adding 1 to unlit times of the street lamp equipment.

3. The method of claim 2, wherein the step of updating the blacklist of light comprises:

judging whether the number of times of non-lighting reaches a preset value;

and if the number of times of unlit reaches a preset value, the street lamp equipment is moved into the lit black list.

4. The method of claim 3, wherein the step of moving the street light apparatus into the blacklist of light further comprises:

and resetting the unlit times of the street lamp equipment.

5. The method of claim 4, wherein the step of time-lapse batch counting lighting conditions of the street light fixture further comprises:

inquiring the lighting state of the street lamp equipment in the lighting blacklist at a preset frequency;

judging whether the street lamp equipment is in a lighting state or not when inquiring each time;

and if the street lamp equipment is in a lighting state, adding 1 to the lighting times of the street lamp equipment.

6. The method of claim 5, wherein the step of determining whether the street light device is in a lit state further comprises:

and if the street lamp equipment is in a non-lighting state, resetting the lighting times of the street lamp equipment.

7. The method of claim 6, wherein the step of updating the blacklist of light further comprises:

judging whether the number of times of lighting reaches a preset numerical value or not;

and if the number of times of lighting reaches a preset value, the street lamp equipment is moved out of the lighting blacklist.

8. A storage device having stored therein a plurality of instructions adapted to be loaded by a processor and to carry out the steps of the method according to any one of claims 1 to 7.

9. A server, comprising:

a processor adapted to implement instructions; and

storage device adapted to store a plurality of instructions adapted to be loaded by a processor and to perform the steps of the method according to any one of claims 1 to 7.

10. A statistical system of urban street lamp lighting rates, characterized in that the system comprises a plurality of street lamps, and the server of claim 9, wherein the plurality of street lamps are in data connection with the server.