CN113099597A

CN113099597A - Intelligent street lamp feedback compensation control system based on big data and compensation method thereof

Info

Publication number: CN113099597A
Application number: CN202110281400.4A
Authority: CN
Inventors: 林礼听; 朱飞; 黄立行; 童琳
Original assignee: Zhejiang Guannan Energy Technology Co ltd
Current assignee: Zhejiang Guannan Energy Technology Co ltd
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-07-09
Anticipated expiration: 2041-03-16
Also published as: CN113099597B

Abstract

The invention discloses a big data-based intelligent street lamp feedback compensation control system and a compensation method thereof, and the system comprises a main server system and a street lamp, wherein the main server system comprises a data receiving and sending system, a server system, a controller system and a feedback compensation system, and the output end of the feedback compensation system is electrically connected with the input end of the server system in a one-way manner. This wisdom street lamp feedback compensation control system and compensation method based on big data, solved when some road surfaces are complicated, break down or illuminate inadequately when the street lamp, unable very first time is with it recovery normal, can influence the driving sight of vehicle, the sight that leads to the vehicle to illuminate also reduces, can cause the traffic accident easily, in addition steal the back at lawless persons to commanding the street lamp, the radar location of its inner chamber can suffer destruction, can't show the position of self, lead to unable finding out stolen street lamp's position, cause the problem of the loss of property.

Description

Intelligent street lamp feedback compensation control system based on big data and compensation method thereof

Technical Field

The invention relates to the technical field of intelligent street lamps, in particular to an intelligent street lamp feedback compensation control system based on big data and a compensation method thereof.

Background

The intelligent street lamp is a street lamp which realizes remote centralized control and management of the street lamp by applying an advanced, efficient and reliable power line carrier communication technology, a wireless GPRS/CDMA communication technology and the like, the intelligent street lamp has the functions of automatically adjusting the brightness according to the traffic flow, controlling remote illumination, actively alarming faults, preventing the theft of lamp cables, remotely reading meters and the like, can greatly save power resources, improve the management level of public illumination and save maintenance cost, and in China, how to optimize a street lamp management system by a government street lamp management department, effectively control energy consumption and reduce maintenance and management cost, and is used as an important component of construction and provided with a schedule. Wisdom street lamp management system comprises software system and hardware equipment, divide into the four layers: the system comprises a data acquisition layer, a communication layer, an application processing layer and an interaction layer. Through the mutual cooperation of each layer, functions such as street lamp facility management, fault alarm, power consumption monitoring, street lamp control and mobile terminal application have been realized, and the traffic flow monitoring that the later stage is still extensible, light sense monitoring can intelligent function. The intelligent street lamp management system software platform is the core of an intelligent street lamp and is a central platform for monitoring, scheduling, operation and maintenance data management of the street lamp. The system can rapidly position and manage the street lamps in a map mode, and has the functions of setting a scheduling strategy of a single lamp or a group of lamps, inquiring the state and the history of the street lamps, changing the running state of the street lamps in real time, providing various reports of the street lamps and the like.

The retrieved patent number is CN110596656A, and specifically relates to a big data-based intelligent street lamp feedback compensation system which comprises a street lamp, wherein the street lamp is provided with a radar detector and an image collector, the radar detector is arranged facing a road and used for detecting an object moving on the road to generate feedback information, and the image collector is arranged facing the road and used for detecting the object moving on the road to generate image acquisition information; the radar system is trained through the information detected by the camera, so that the detection feedback value of the radar system tends to be accurate, accurate collection of data can be realized without the support of the camera in the later stage, and high-precision and high-efficiency detection is realized.

The intelligent street lamp self-checking system comprises a feedback compensation module, a speed feedback module and a compensation correction module, wherein the feedback compensation module comprises a speed feedback strategy and a compensation correction strategy, the speed feedback strategy comprises the steps of obtaining all measured running speeds of a vehicle, which are measured by radar detectors in the same independent detection group, at the same time, and calculating by using the detection weight as a weight value and a weighting algorithm to obtain an actually measured running speed; the compensation correction strategy includes calculating a speed error value for each measured travel speed based on the measured travel speed, and correcting the vehicle speed detection algorithm based on the obtained speed error value to approximate the measured travel speed to the measured travel speed. Through setting up like this, can play an effect to the automatic calibration of speed of a motor vehicle, improve the rate of accuracy that the radar detected the speed of a motor vehicle through the training, overcome the curved surface through the form of multi-angle correction, bend the road conditions and cause the condition that speed of a motor vehicle discernment is out of alignment.

The existing intelligent street lamp realizes remote centralized control and management of the street lamp, and has the functions of automatically adjusting brightness according to traffic flow, remote lighting control, active fault alarm, lamp cable anti-theft, remote meter reading and the like.

However, when some road surfaces are complicated, when the road lamps are in failure or not enough to be illuminated, the road lamps cannot be recovered to be normal at the first time, the driving sight of vehicles can be influenced, the illuminated sight of the vehicles is reduced, accidents can be easily caused, in addition, after lawless persons steal the commanding road lamps, the radar positioning of the inner cavity of the commanding road lamps can be damaged, the positions of the commanding road lamps cannot be displayed, the positions of the stolen road lamps cannot be found, and property loss is caused.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent street lamp feedback compensation control system based on big data and a compensation method thereof, and solves the problems that when the street lamp fails or is not well illuminated on a complex road surface, the street lamp cannot be recovered to be normal at the first time, the driving sight of a vehicle is influenced, the illuminated sight of the vehicle is reduced, traffic accidents are easily caused, in addition, after a lawless person steals the command street lamp, the radar positioning of the inner cavity of the command street lamp is damaged, the position of the command street lamp can not be displayed, the position of the stolen street lamp can not be found, and property loss is caused.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the intelligent street lamp feedback compensation control system based on big data comprises a main server system and a street lamp, wherein the main server system and the street lamp are both wirelessly connected in a bidirectional electric mode.

The general server system comprises a data receiving and sending system, a server system, a controller system and a feedback compensation system, wherein the data receiving and sending system is electrically connected with the server system in a bidirectional mode, the output end of the server system is electrically connected with the input end of the controller system in a unidirectional mode, the output end of the controller system is electrically connected with the input end of the feedback compensation system in a unidirectional mode, and the output end of the feedback compensation system is electrically connected with the input end of the server system in a unidirectional mode.

The feedback compensation system is composed of an illumination complementation unit, a radar positioning feedback unit and a feedback compensation unit, and the output ends of the illumination complementation unit and the radar positioning feedback unit are electrically connected with the input end of the feedback compensation unit in a one-way mode.

The illumination complementary unit comprises an electric energy complementary module and a power supply lead module, and the output end of the electric energy complementary module is electrically connected with the input end of the power supply lead module in a unidirectional mode.

The system comprises a satellite positioning module and a radar cable-retracting positioning module, wherein the output end of the satellite positioning module is electrically connected with the input end of the radar cable-retracting positioning module in a one-way mode.

Preferably, the street lamp includes battery pack, camera unit, lighting unit, ambient temperature detecting element, traffic flow detecting element and radar positioning element, one-way electric connection is realized with camera unit's input to battery pack's output, one-way electric connection is realized with lighting unit's input to camera unit's output, one-way electric connection is realized with ambient temperature detecting element's input to lighting unit's output, one-way electric connection is realized with traffic flow detecting element's input to ambient temperature detecting element's output, one-way electric connection is realized with radar positioning element's input to traffic flow detecting element's output.

Preferably, the camera shooting unit comprises an image acquisition module and an image splicing algorithm module, and the output end of the image acquisition module is electrically connected with the input end of the image splicing algorithm module in a one-way mode.

Preferably, the lighting unit comprises a solar panel module, a wire connection module and an induction type light bar module, the output end of the solar panel module is electrically connected with the input end of the wire connection module in a one-way mode, and the output end of the wire connection module is electrically connected with the input end of the induction type light bar module in a one-way mode.

Preferably, induction type lamp strip module includes sound induction module, the module of lighting a light for 3 seconds and the module of turning off the light for 5 seconds, one-way electric connection is realized with the input of the module of lighting a light for 3 seconds to the output of sound induction module, one-way electric connection is realized with the input of the module of turning off the light for 5 seconds to the output of sound induction module.

Preferably, the radar positioning feedback unit and the radar positioning unit are in bidirectional electrical connection, and the illumination complementary unit and the illumination unit are in bidirectional electrical connection.

Preferably, the radar positioning unit and the illumination complementary unit are electrically connected with the feedback compensation unit.

The invention also discloses a compensation method of the intelligent street lamp feedback compensation control system based on the big data, which comprises the following steps:

s1, the street lamp is used, firstly, the street lamp is installed on a required position, firstly, the camera unit is started through the storage battery unit, the image acquisition module in the inner cavity of the camera unit starts to shoot the picture of the road surface, the shot picture is spliced through the image splicing algorithm module in an algorithm mode, the data of the image is sent to the data receiving and sending system, the illuminating unit can illuminate the road surface, the storage battery unit can be stored with electric energy through the solar panel module and the lead connecting module, the whole street lamp cannot be powered off, in addition, whether the sound of the vehicle running nearby exists is sensed through the sound sensing module in the sensing type light bar module, the lamp is lightened for 3 seconds through the 3 second lightening module after sensing, when the vehicle is not sensed to pass through, the lamp is lightened for 5 seconds through the 5 second lightening module, and the electricity consumption of the street lamp is saved, the environment temperature, the road traffic flow record and the street lamp installation position can be respectively realized through the environment temperature detection unit, the traffic flow detection unit and the radar positioning unit, and the obtained data can be completely collected through the data receiving and sending system;

s2, illumination complementation compensation, in addition, after long-time use, when the electric energy of the storage battery unit of the individual induction type light bar module is insufficient or the whole circuit of the street lamp is failed, the illumination brightness of the induction type light bar module is insufficient or the circuit problem is directly not bright, the generated failure can be collected through the data receiving and sending system, the information collected by the data receiving and sending system can be sent to the server system, the management and the processing are carried out through the controller system, when the failure information is generated, the failure information can be sent to the feedback compensation system, the feedback compensation system can control the electric energy complementation module in the illumination complementation unit to start the power supply lead module, the electric energy of the storage battery unit in the street lamp nearby is connected in parallel when the determination command of the feedback compensation unit is carried out, so that the failed street lamp or the induction type light bar module is not bright again, making it return to normal;

s3, radar location feedback compensation, in addition, when the street lamp is at night, can show self position through radar positioning unit automatically, but steal by lawless persons, radar positioning unit can suffer destruction, can't show the information of position, its information passes through data receiving and sending system and carries in the server system, the controller system can learn the news that the street lamp position disappears, can start through the satellite positioning module among the feedback compensation system control radar location feedback unit, can retrieve the positioning module through the radar after starting satellite positioning module and mate with radar positioning unit assorted, retrieve of radar positioning unit position, learn the position of stealing the street lamp, and send the people and retrieve the street lamp, avoid causing not little property loss.

Advantageous effects

The invention provides an intelligent street lamp feedback compensation control system based on big data and a compensation method thereof.

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

1. after long-time use, when the electric energy of the storage battery unit of an individual induction type light bar module is insufficient or the whole circuit of the street lamp is in fault, the induction type light bar module is insufficient in illumination brightness or is directly out of circuit, the fault generated by the induction type light bar module can be collected by the data receiving and sending system, the information collected by the data receiving and sending system can be sent to the server system, the management and the processing are carried out by the controller system, after the fault information appears, the fault information can be sent to the feedback compensation system, the feedback compensation system can control the electric energy complementary module in the illumination complementary unit to start the power supply lead module, and then the electric energy of the storage battery unit in the street lamp beside is connected in parallel when the determination command of the feedback compensation unit is carried out, the street lamp or the induction type lamp strip module with the fault is not enough in brightness to be re-lighted, so that the street lamp or the induction type lamp strip module is recovered to be normal.

2. This wisdom street lamp feedback compensation control system and compensation method based on big data, through when the street lamp is at night, can show the position of self automatically through radar positioning unit, but steal by lawless persons, radar positioning unit can suffer destruction, can't show the information of position, its information passes through data receiving and sending system and carries the server system in, the controller system can learn the disappearance message of street lamp position, can start through the satellite positioning module among the feedback compensation system control radar positioning feedback unit, can retrieve through radar after the start-up satellite positioning module and match with radar positioning unit, retrieve of radar positioning unit position, learn the position of stealing the street lamp, and send the people to retrieve the street lamp, avoid causing not little loss of property.

3. The intelligent street lamp feedback compensation control system based on the big data and the compensation method thereof are characterized in that an image acquisition module in an inner cavity of a camera unit starts to shoot a picture on the road surface, the shot picture is spliced by an image splicing algorithm module in an algorithm, the data of the picture is sent to a data receiving and sending system, an illumination unit can illuminate the road surface, a solar panel module and a wire connecting module can be used for storing electric energy of a storage battery unit, the whole street lamp cannot be powered off, in addition, whether a vehicle runs nearby is sensed by a sound sensing module in an induction type light bar module, the lamp is turned on for 3 seconds by a lamp turning-on module for 3 seconds after sensing, when the vehicle is not sensed to pass through, the lamp is turned off for 5 seconds by a lamp turning-off module for 5 seconds, and the electricity consumption of the street lamp is saved.

4. According to the intelligent street lamp feedback compensation control system based on the big data and the compensation method thereof, the environment temperature detection unit, the traffic flow detection unit and the radar positioning unit are communicated, the record of the environment temperature and the road section traffic flow and the installation position of the street lamp can be recorded respectively, the obtained data can be collected through the data receiving and sending system, and the functions of monitoring management, data statistics and an information query module are realized.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a system diagram of the architecture of the present invention;

FIG. 3 is a diagram of an overall server system of the present invention;

FIG. 4 is a diagram of a feedback compensation system of the present invention;

FIG. 5 is a system diagram of a radar positioning feedback unit according to the present invention;

FIG. 6 is a system diagram of a complementary lighting unit according to the present invention;

FIG. 7 is a system diagram of a street light according to the present invention;

FIG. 8 is a system diagram of a camera unit according to the present invention;

FIG. 9 is a system diagram of a lighting unit of the present invention;

fig. 10 is a diagram of an inductive light bar module system according to the present invention.

In the figure: 1. an overall server system; 11. a data receiving and transmitting system; 12. a server system; 13. a controller system; 14. a feedback compensation system; 141. an illumination complementary unit; 1411. a power complementary module; 1412. a power lead module; 142. a radar positioning feedback unit; 1421. a satellite positioning module; 1422. a radar cable retracting and positioning module; 143. a feedback compensation unit; 3. a street lamp; 31. a battery cell; 32. an image pickup unit; 321. an image acquisition module; 322. an image stitching algorithm module; 33. a lighting unit; 331. a solar panel module; 332. a wire connection module; 333. an inductive light bar module; 3331. a sound sensing module; 3332. the lamp module is turned on for 3 seconds; 3333. 5 second light-off module; 34. an ambient temperature detection unit; 35. a traffic flow detection unit; 36. and a radar positioning unit.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. 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.

Referring to fig. 1-2, an embodiment of the present invention provides a technical solution: wisdom street lamp feedback compensation control system based on big data, including total server system 1 and street lamp 3, total server system 1 and street lamp 3 are all through wireless realization two-way electric connection.

Referring to fig. 3, the overall server system 1 includes a data receiving and sending system 11, a server system 12, a controller system 13 and a feedback compensation system 14, the data receiving and sending system 11 is electrically connected to the server system 12 in a bidirectional manner, an output end of the server system 12 is electrically connected to an input end of the controller system 13 in a unidirectional manner, an output end of the controller system 13 is electrically connected to an input end of the feedback compensation system 14 in a unidirectional manner, and an output end of the feedback compensation system 14 is electrically connected to an input end of the server system 12 in a unidirectional manner.

Referring to fig. 4, the feedback compensation system 14 is composed of an illumination complementation unit 141, a radar positioning feedback unit 142 and a feedback compensation unit 143, output ends of the illumination complementation unit 141 and the radar positioning feedback unit 142 are electrically connected to input ends of the feedback compensation unit 143 in a unidirectional manner, the radar positioning feedback unit 142 is electrically connected to the radar positioning unit 36 in a bidirectional manner, the illumination complementation unit 141 is electrically connected to the illumination unit 33 in a bidirectional manner, and the radar positioning unit 36 and the illumination complementation unit 141 are electrically connected to the feedback compensation unit 143.

Referring to fig. 6, the illumination complementation unit 141 includes a power complementation module 1411 and a power line module 1412, and an output end of the power complementation module 1411 is electrically connected to an input end of the power line module 1412 in a unidirectional manner.

Referring to fig. 5, the module 412 includes a satellite positioning module 1421 and a radar cable positioning module 1422, and an output end of the satellite positioning module 1421 is electrically connected to an input end of the radar cable positioning module 1422 in a unidirectional manner.

Referring to fig. 7, the street lamp 3 includes a storage battery unit 31, a camera unit 32, an illumination unit 33, an ambient temperature detection unit 34, a traffic flow detection unit 35 and a radar positioning unit 36, an output end of the storage battery unit 31 is electrically connected to an input end of the camera unit 32 in a unidirectional manner, an output end of the camera unit 32 is electrically connected to an input end of the illumination unit 33 in a unidirectional manner, an output end of the illumination unit 33 is electrically connected to an input end of the ambient temperature detection unit 34 in a unidirectional manner, an output end of the ambient temperature detection unit 34 is electrically connected to an input end of the traffic flow detection unit 35 in a unidirectional manner, and an output end of the traffic flow detection unit 35 is electrically connected to an input end of the radar positioning unit.

Referring to fig. 8, the camera unit 32 includes an image acquisition module 321 and an image stitching algorithm module 322, and an output end of the image acquisition module 321 is electrically connected to an input end of the image stitching algorithm module 322 in a unidirectional manner.

Referring to fig. 9, the lighting unit 33 includes a solar panel module 331, a wire connection module 332, and an inductive light bar module 333, wherein an output end of the solar panel module 331 is electrically connected to an input end of the wire connection module 332 in a unidirectional manner, and an output end of the wire connection module 332 is electrically connected to an input end of the inductive light bar module 333 in a unidirectional manner.

Referring to fig. 10, the sensing type light bar module 333 includes a sound sensing module 3331, a 3 second lighting module 3332 and a 5 second lighting module 3333, an output end of the sound sensing module 3331 is electrically connected to an input end of the 3 second lighting module 3332 in a unidirectional manner, and an output end of the sound sensing module 3331 is electrically connected to an input end of the 5 second lighting module 3333 in a unidirectional manner.

The embodiment of the invention provides a technical scheme that: the intelligent street lamp feedback compensation control system based on big data and the compensation method thereof comprise the following steps:

s1, the street lamp is used, firstly, the street lamp 3 is installed at a required position, firstly, the camera unit 32 is started through the storage battery unit 31, the image acquisition module 321 in the inner cavity of the camera unit 32 starts to shoot the picture of the road surface, the shot picture is spliced through the image splicing algorithm module 322 in an algorithm mode, the data of the image is sent to the data receiving and sending system 11, the illuminating unit 33 can illuminate the road surface, the storage battery unit 31 can be stored with electric energy through the solar panel module 331 and the conducting wire connecting module 332, so that the whole street lamp 3 is not powered off, in addition, whether the sound of the vehicle running nearby exists or not is sensed through the sound sensing module 3331 in the sensing type lamp bar module 333, the lamp is lightened for 3 seconds through the 3 second lightening module 3332 after sensing, and when the vehicle is not sensed to pass through, the lamp is lightened for 5 seconds through the 5 second lightening module 3333, the electricity consumption of the street lamp 3 is saved, the environment temperature, the road traffic flow and the installation position of the street lamp 3 can be recorded respectively through the environment temperature detection unit 34, the traffic flow detection unit 35 and the radar positioning unit 36, and all the obtained data can be collected through the data receiving and sending system 11;

s2, complementary lighting compensation, and after a long time of use, when the power of the storage battery unit 31 is insufficient or the whole circuit of the street lamp 3 fails, the individual inductive light bar module 333 causes insufficient illumination brightness or no circuit problem, the generated failure is collected by the data receiving and sending system 11, the information collected by the data receiving and sending system 11 is sent to the server system 12, the management and processing are performed by the controller system 13, when the failure information occurs, the failure information is sent to the feedback compensation system 14, the feedback compensation system 14 controls the power complementary module 1411 in the complementary lighting unit 141 to start the power wire module 1412, and then the power of the storage battery unit 31 in the street lamp 3 nearby is connected in parallel by the determination command of the feedback compensation unit 143, the street lamp 3 or the induction type lamp bar module 333 with the fault is lightened again due to insufficient brightness, so that the street lamp is recovered to be normal;

s3, compensating for radar positioning feedback, and in addition, when the street lamp 3 is at night, the position of the street lamp can be automatically displayed through the radar positioning unit 36 and stolen by lawless persons, the radar positioning unit 36 is turned off due to power loss and cannot display position information, the information is transmitted to the server system 12 through the data receiving and transmitting system 11, the controller system 13 can know the information that the street lamp 3 is lost, the satellite positioning module 1421 in the radar positioning feedback unit 142 is controlled to be started through the feedback compensation system 14, the satellite positioning module 1421 is started and then matched with the radar positioning unit 36 through the radar retrieving positioning module 1422, the position of the radar positioning unit 36 is retrieved, the position of the stolen street lamp 3 is known, a person is sent to retrieve the street lamp 3, and the fact that no small property loss is caused.

And those not described in detail in this specification are well within the skill of those in the art.

It is noted that, herein, relational terms such as first and second, and the like may be 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.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Wisdom street lamp feedback compensation control system based on big data, including total server system (1) and street lamp (3), its characterized in that: the general server system (1) and the street lamp (3) are both wirelessly and electrically connected in a bidirectional way;

the general server system (1) comprises a data receiving and sending system (11), a server system (12), a controller system (13) and a feedback compensation system (14), wherein the data receiving and sending system (11) is in bidirectional electrical connection with the server system (12), the output end of the server system (12) is in unidirectional electrical connection with the input end of the controller system (13), the output end of the controller system (13) is in unidirectional electrical connection with the input end of the feedback compensation system (14), and the output end of the feedback compensation system (14) is in unidirectional electrical connection with the input end of the server system (12);

the feedback compensation system (14) is composed of an illumination complementation unit (141), a radar positioning feedback unit (142) and a feedback compensation unit (143), and the output ends of the illumination complementation unit (141) and the radar positioning feedback unit (142) are electrically connected with the input end of the feedback compensation unit (143) in a unidirectional mode;

the illumination complementary unit (141) comprises a power complementary module (1411) and a power lead module (1412), wherein the output end of the power complementary module (1411) is electrically connected with the input end of the power lead module (1412) in a unidirectional manner;

the radar cable retracting positioning device comprises a satellite positioning module (1421) and a radar cable retracting positioning module (1422), wherein the output end of the satellite positioning module (1421) is electrically connected with the input end of the radar cable retracting positioning module (1422) in a one-way mode.

2. The big data based intelligent street lamp feedback compensation control system according to claim 1, wherein: street lamp (3) include battery unit (31), camera unit (32), lighting unit (33), ambient temperature detecting element (34), traffic flow detecting element (35) and radar positioning unit (36), one-way electric connection is realized with camera unit (32)'s input to battery unit's (31) output, one-way electric connection is realized with lighting unit (33)'s input to camera unit's (32) output, one-way electric connection is realized with ambient temperature detecting element's (34) input to lighting unit's (33) output, one-way electric connection is realized with traffic flow detecting element's (35) input to ambient temperature detecting element's (34) output, one-way electric connection is realized with the input of radar positioning unit (36) to the output of traffic flow detecting element (35).

3. The big data based intelligent street lamp feedback compensation control system as claimed in claim 2, wherein: the camera shooting unit (32) comprises an image acquisition module (321) and an image splicing algorithm module (322), and the output end of the image acquisition module (321) is electrically connected with the input end of the image splicing algorithm module (322) in a one-way mode.

4. The big data based intelligent street lamp feedback compensation control system as claimed in claim 2, wherein: the lighting unit (33) comprises a solar panel module (331), a wire connecting module (332) and an induction type light bar module (333), wherein the output end of the solar panel module (331) is electrically connected with the input end of the wire connecting module (332) in a one-way mode, and the output end of the wire connecting module (332) is electrically connected with the input end of the induction type light bar module (333) in a one-way mode.

5. The big data based intelligent street lamp feedback compensation control system of claim 4, wherein: induction type lamp strip module (333) are including sound induction module (3331), 3 seconds light module (3332) and 5 seconds module (3333) that goes out, one-way electric connection is realized with the input of 3 seconds light module (3332) to the output of sound induction module (3331), one-way electric connection is realized with the input of 5 seconds module (3333) that goes out to the output of sound induction module (3331).

6. The big data based intelligent street lamp feedback compensation control system according to claim 1, wherein: the radar positioning feedback unit (142) is electrically connected with the radar positioning unit (36) in a bidirectional mode, and the illumination complementary unit (141) is electrically connected with the illumination unit (33) in a bidirectional mode.

7. The big data based intelligent street lamp feedback compensation control system as claimed in claim 2, wherein: the radar positioning unit (36) and the illumination complementary unit (141) are electrically connected with the feedback compensation unit (143).

8. The intelligent feedback compensation control system for street lamps based on big data as claimed in any of claims 1-7, wherein the compensation method comprises the following steps:

s1, the street lamp is used, firstly, the street lamp (3) is installed at a required position, firstly, the camera unit (32) is started through the storage battery unit (31), the image acquisition module (321) in the inner cavity of the camera unit (32) starts to shoot the picture of the road surface, the shot picture is spliced through the image splicing algorithm module (322) in an algorithm mode, the data of the image is sent to the data receiving and sending system (11), the illuminating unit (33) can illuminate the road surface, the storage battery unit (31) can be stored through the solar panel module (331) and the lead connecting module (332) to ensure that the street lamp (3) is not powered off as a whole, in addition, whether the sound of the vehicle driving nearby exists or not is sensed through the sound sensing module (3331) in the sensing type light bar module (333), and then the 3-second lighting module (3332) is used for lighting for 3 seconds after sensing, when the passing of a vehicle is not sensed, the lamp is turned off for 5 seconds through the 5-second lamp turning-off module (3333), the electricity consumption of the street lamp (3) is saved, the environment temperature, the road section traffic flow record and the installation position of the street lamp (3) can be respectively realized through the environment temperature detection unit (34), the traffic flow detection unit (35) and the radar positioning unit (36), and all obtained data can be collected through the data receiving and sending system (11);

s2, illumination complementary compensation, wherein after long-time use, when the individual induction type light bar module (333) is insufficient in illumination brightness or directly not illuminated due to insufficient electrical energy of the storage battery unit (31) or when the whole circuit of the street lamp (3) fails, the generated failure can be collected through the data receiving and sending system (11), the information collected by the data receiving and sending system (11) is sent to the server system (12), the management and processing are carried out through the controller system (13), when the failure information occurs, the failure information is sent to the feedback compensation system (14), the feedback compensation system (14) can control the electrical energy complementary module (1411) in the illumination complementary unit (141) to start the power supply lead module (1412), and then the feedback compensation unit (143) determines a command to carry out and process the electrical energy of the storage battery unit (31) in the street lamp (3) beside the street lamp In addition, the street lamp (3) or the induction type lamp bar module (333) with the fault is lightened again due to insufficient brightness, so that the street lamp or the induction type lamp bar module is recovered to be normal;

s3, compensating radar positioning feedback, in addition, when the street lamp (3) is at night, the position of the street lamp can be automatically displayed through the radar positioning unit (36) but stolen by lawless persons, the radar positioning unit (36) can be damaged and can not display the position information, the information is transmitted to the server system (12) through the data receiving and transmitting system (11), the controller system (13) can know the information that the street lamp (3) is lost, the satellite positioning module (1421) in the radar positioning feedback unit (142) can be controlled to be started through the feedback compensation system (14), the position of the stolen street lamp (3) can be known through matching of the radar retrieving positioning module (1422) and the radar positioning unit (36) after the satellite positioning module (1421) is started, retrieving of the position of the radar positioning unit (36) is carried out, and people are sent to retrieve the street lamp (3), avoid causing not little property loss.