CN105739383A - Indoor power equipment intelligent inspection robot management system - Google Patents

Abstract

The present invention relates to an indoor power equipment intelligent inspection robot management system. The indoor power equipment intelligent inspection robot management system comprises a control box main body, a municipal street lamp control platform, a control box communication interface, an ARM11 processing chip and a high-definition camera, and the control box communication interface, the ARM11 processing chip and the high-definition camera are all arranged on the control box main body. The indoor power equipment intelligent inspection robot management system of the present invention is a wall-mounted combined rail and can realize the position transfer in two or a plurality of vertical planes, the combined modes satisfy the diverse and complicated detection requirements of the indoor equipment detection, and the horizontal rails or the vertical rails can be taken out individually to construct a system independently to detect the use of a robot system according to the actual detection demands.

Description

Indoor power device intelligence crusing robot management system

Technical field

The present invention relates to control chamber field, particularly relate to a kind of indoor power device intelligence crusing robot management system.

Background technology

Indoor power equipment needs enough reliabilities on the one hand, is also required to detection in time on the other hand to find and to overhaul the equipment that there is potential risk, it is ensured that power system is properly functioning.The detection in real time of indoor equipment is to ensureing that its reliable and secure operation is significant.Adopt track machine people easily and flexibly indoor equipment to be detected in real time, understand the running status of equipment.

The technical problem that existing indoor track type intelligent inspection robot exists is as follows:

1, current mobile apparatus people mainly adopts the mode of wheeled, crawler belt or composite flooding.Because of the restriction of the interior space and detection device layout, omnibearing detection function to be realized, it is necessary to robot at orthogonal two or more move in plane, and can independently realize the transfer between different motion plane.The motion transfer relative difficulty that Conventional drum drives or crawler type type of drive realizes between vertical plane, and the monitoring time of the testing requirement of indoor equipment is long, positioning precision is high, adopts the requirement that cannot meet the detection time from charged pool.

2, being currently used for patrolling and examining the mobile apparatus people of indoor equipment information, equipment indoor to high electrical-magnetic compatibility should be able to produce electromagnetic disturbance on the one hand as small as possible, and electromagnetic disturbance to external world should have relatively low susceptibility on the other hand.In electronic device design, the method for employing structual shield is the means of conventional raising Electro Magnetic Compatibility.Structure electromagnetic shielding requires there is good electric continuity between faying face.All there is deformation adding in hardware man-hour, especially for platy structure is more prone to big deformation and cannot correct, and thus causes that combining at two structural members is can produce gap and affect shield effectiveness.

3, being currently used for patrolling and examining the mobile apparatus people of indoor equipment information, there are some defects in ventilation and heat part, for instance: shielding vent window is mainly used in the necessary ventilation orifice place of electronic equipment, can take into account the dual function of EMI shielding and good ventilation.Existing electromagnetic shielding window has the disadvantage in that (a) existing electromagnetic shielding window does not have dust-proof function, ventilates and causes the dust in casing to accumulate, and dust can greatly reduce the service life of equipment；B the sealing effectiveness between () existing electromagnetic shielding window and casing is bad, there is gap between electromagnetic shielding window and casing, affects the effect of electromagnetic shielding.

4, Indoor Robot easily causes the jiggly problem of operation in the process run.

5, it is currently used for patrolling and examining the mobile apparatus people of indoor equipment information, it is easy to stolen.

Summary of the invention

In order to solve the problems referred to above, according to an aspect of the present invention, provide a kind of indoor power device intelligence crusing robot management system, described management system includes control chamber main body, municipal road lamp parametric controller, control chamber communication interface, ARM11 processes chip and high-definition camera, control chamber communication interface, ARM11 processes chip and high-definition camera is all disposed within control chamber main body, municipal road lamp parametric controller is arranged on far-end, high-definition camera and ARM11 process chip for determining pedestrian's quantity of traffic intersection, control chamber communication interface processes chip with ARM11 and is connected, for pedestrian's quantity of traffic intersection is sent to municipal road lamp parametric controller.

More specifically, in described indoor power device intelligence crusing robot management system, including: control chamber main body, selecting handle, jumping conjunction position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface, stand-by power supply, shell and ARM11 to process chip including connecting terminal block, remote manual control, ARM11 processes chip and selects with connecting terminal block, remote manual control handle, jumping conjunction position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface and stand-by power supply to be connected respectively；Remote manual control selects handle for realizing the switching of manual operation on the spot and remote manipulation on the spot；Analog input interface includes signal conditioning circuit, genlock circuit and analog to digital conversion circuit；Stand-by power supply is ultracapacitor, and its operating temperature is 40 degrees below zero between 70 degree above freezing, and efficiency for charge-discharge is between 90% to 95%；Shell adopts corrosion resistant stainless steel material；Intensity of illumination detector, is arranged on control chamber shell, for detecting the real-time lighting intensity of traffic intersection position, determines and export the intensity of illumination grade of correspondence according to real-time lighting intensity；High-definition camera, is arranged on control chamber shell, and for traffic intersection is shot, to obtain high definition crossing image, the resolution of high definition crossing image is 1920 × 1080；MMC storage card, it is arranged in control chamber shell, for prestoring multiple benchmark intensity of illumination crossings image, the corresponding intensity of illumination grade of each benchmark intensity of illumination crossing image, each benchmark intensity of illumination crossing image is that traffic intersection is carried out shooting the image obtained in advance by high-definition camera under without any pedestrian's state under corresponding intensity of illumination grade, MMC storage card is additionally operable to prestore traffic intersection address, binary-state threshold, benchmark pedestrian's gray processing picture and preset matching degree threshold value, benchmark pedestrian's gray processing picture is the gray processing picture only including benchmark pedestrian contour, preset matching degree threshold value is the percentages less than 1；Foreground selection equipment, it is arranged in control chamber shell, being connected respectively with intensity of illumination detector and MMC storage card, the intensity of illumination grade based on the output of current time intensity of illumination detector is found the benchmark intensity of illumination crossing image of correspondence in MMC storage card and exports as target background image；nullLive image splitting equipment，It is arranged in control chamber shell，With high-definition camera、MMC storage card and Foreground selection equipment connect respectively，High definition crossing image and the high definition crossing image of current time upper one second of current time is received by high-definition camera，Respectively as the first high definition crossing image and the second high definition crossing image，The gray value of each pixel of the first high definition crossing image is deducted the gray value of the pixel of correspondence position in the second high definition crossing image and takes absolute value to obtain image difference absolute value，When image difference absolute value is be more than or equal to binary-state threshold，The respective pixel of the first high definition crossing image is confirmed as active pixel，Otherwise，The respective pixel of the first high definition crossing image is confirmed as static pixel，The image of all active pixel composition in first high definition crossing image is exported as live image，Live image is made up of one or more zones of action；Morphological image processes equipment, it is arranged in control chamber shell, it is connected with live image splitting equipment, for receiving live image, and each zone of action is carried out denoising to obtain denoising subimage, fill up denoising subimage interior void and connect in denoising subimage breakpoint to obtain shaping subimage, export one or more shaping subimage；Smoothing processing equipment, is arranged in control chamber shell, processes equipment with morphological image and is connected, for each the shaping subimage received is smoothed, to obtain smooth subimage；Medium filtering equipment, is arranged in control chamber shell, is connected with smoothing processing equipment, processes for the smooth subimage received is performed medium filtering, to filter the scattering composition in smooth subimage, it is thus achieved that medium filtering subimage；Change of scale strengthens equipment, is arranged in control chamber shell, is connected with medium filtering equipment, for the medium filtering subimage received is performed change of scale enhancement process, to obtain enhancer image；Gray processing processes equipment, is arranged in control chamber shell, strengthens equipment with change of scale and is connected, for the enhancer image received is carried out gray processing process, to obtain gray processing subimage；ARM11 processes chip and is arranged in control chamber shell, process equipment with gray processing and MMC storage card is connected respectively, each gray processing subimage is mated with benchmark pedestrian's gray processing picture, when matching degree is be more than or equal to preset matching degree threshold value, corresponding gray processing subimage is confirmed as pedestrian's subimage, calculates the number of pedestrian's subimage and exports as pedestrian's quantity；Control chamber communication interface, is embedded on shell, processes chip with ARM11 and MMC storage card is connected respectively, receives pedestrian's quantity and traffic intersection address, and is sent pedestrian's quantity and traffic intersection address by wireless communication link；Municipal road lamp parametric controller, it is arranged on municipal administration sector location, including municipal road lamp communication interface and municipal road lamp controller, municipal road lamp communication interface for receiving pedestrian's quantity and traffic intersection address by wireless communication link, municipal road lamp controller is connected with municipal road lamp communication interface, for determining the unlatching density of street lamp near traffic intersection address based on pedestrian's quantity, and based on traffic intersection address, the unlatching density determined is sent to each LED street lamp near traffic intersection address by municipal road lamp communication interface, so that each LED street lamp near traffic intersection address determines the opening of self according to the unlatching density received.

More specifically, in described indoor power device intelligence crusing robot management system: pedestrian's quantity is more many, and near traffic intersection address, the unlatching density of street lamp is more little.

More specifically, in described indoor power device intelligence crusing robot management system, also include: control panel, be embedded on shell, process chip with ARM11 and be connected, for real-time display line people's quantity.

More specifically, in described indoor power device intelligence crusing robot management system: control panel is the display panels including touch screen.

More specifically, in described indoor power device intelligence crusing robot management system: wireless communication link is time division duplex communication link.

Accompanying drawing explanation

Below with reference to accompanying drawing, embodiment of the present invention are described, wherein:

Fig. 1 is the block diagram of the indoor power device intelligence crusing robot management system illustrated according to an embodiment of the present invention.

Fig. 2 is the block diagram of the municipal road lamp parametric controller of the indoor power device intelligence crusing robot management system illustrated according to an embodiment of the present invention.

Accompanying drawing labelling: 1 control chamber main body；2 municipal road lamp parametric controller；3 control chamber communication interfaces；4ARM11 processes chip；5 high-definition cameras；6 municipal road lamp communication interfaces；7 municipal road lamp controllers

Detailed description of the invention

The embodiment that the indoor power device intelligence crusing robot of the present invention manages system below with reference to accompanying drawings is described in detail.

Street lamp generally by the shape emitted beam to divide kind.Concrete division methods is as follows, and International Commission on Illumination (CIE) suggestion is undertaken by projection, extension, 3 contents of control: 1. project.Represent that the light that sends of light fixture is along the longitudinal diffusion of road, be divided into short, in, long 3 kinds.2. extend.The light that expression light fixture sends, in the diffusion of road transverse direction, is divided into narrow, general, wide 3 kinds.3. control.Represent that light fixture controls the degree of dazzle, be divided into limited, medium, strict 3 kinds.The mounting means of street lamp has bracket type, tall formula, straight-bar type, suspension and suction wall type etc. several.

Currently, owing to the street lamp in each city is large number of, whole power consumption is huge, especially maximum at the street lamp distributed quantity at each traffic intersection place.Lacking the technical scheme that neighbouring street lamp carries out open and close control based on real-time pedestrian's quantity in prior art, open and close control model used is excessively fixing, and intelligent level is not high.

Meanwhile, being typically in traffic intersection place and all arrange control chamber, the traffic lights for traffic intersection control, or for the Street lamps control near traffic intersection, it is also possible to for providing electric power support for the capture apparatus violating the regulations near traffic intersection, urban service equipment.But the effect of traffic intersection control chamber of the prior art is only limitted to this, not yet occur that the technical scheme controlled opened by traffic intersection control chamber for neighbouring street lamp.

For this, the present invention has built a kind of indoor power device intelligence crusing robot management system, the control chamber at each traffic intersection place can be made full use of, make it as the collection carrier of neighbouring pedestrian's quantity, switch time for the street lamp near traffic intersection controls the data supporting that offer is strong, thus reducing the street lamp cost of each Municipal administration section.

Fig. 1 is the block diagram of the indoor power device intelligence crusing robot management system illustrated according to an embodiment of the present invention, described management system includes control chamber main body, municipal road lamp parametric controller, control chamber communication interface, ARM11 processes chip and high-definition camera, control chamber communication interface, ARM11 processes chip and high-definition camera is all disposed within control chamber main body, municipal road lamp parametric controller is arranged on far-end, high-definition camera and ARM11 process chip for determining pedestrian's quantity of traffic intersection, control chamber communication interface processes chip with ARM11 and is connected, for pedestrian's quantity of traffic intersection is sent to municipal road lamp parametric controller.

Then, the concrete structure continuing the management system of the indoor power device intelligence crusing robot to the present invention is further detailed.

Described management system includes: control chamber main body, selects handle including connecting terminal block, remote manual control, jumps and close position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface, stand-by power supply, shell and ARM11 process chip.

ARM11 processes chip and selects with connecting terminal block, remote manual control handle, jumping conjunction position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface and stand-by power supply to be connected respectively.

Remote manual control selects handle for realizing the switching of manual operation on the spot and remote manipulation on the spot；Analog input interface includes signal conditioning circuit, genlock circuit and analog to digital conversion circuit；Stand-by power supply is ultracapacitor, and its operating temperature is 40 degrees below zero between 70 degree above freezing, and efficiency for charge-discharge is between 90% to 95%；Shell adopts corrosion resistant stainless steel material.

Described management system includes: intensity of illumination detector, is arranged on control chamber shell, for detecting the real-time lighting intensity of traffic intersection position, determines and export the intensity of illumination grade of correspondence according to real-time lighting intensity.

Described management system includes: high-definition camera, is arranged on control chamber shell, and for traffic intersection is shot, to obtain high definition crossing image, the resolution of high definition crossing image is 1920 × 1080.

Described management system includes: MMC storage card, it is arranged in control chamber shell, for prestoring multiple benchmark intensity of illumination crossings image, the corresponding intensity of illumination grade of each benchmark intensity of illumination crossing image, each benchmark intensity of illumination crossing image is that traffic intersection is carried out shooting the image obtained in advance by high-definition camera under without any pedestrian's state under corresponding intensity of illumination grade, MMC storage card is additionally operable to prestore traffic intersection address, binary-state threshold, benchmark pedestrian's gray processing picture and preset matching degree threshold value, benchmark pedestrian's gray processing picture is the gray processing picture only including benchmark pedestrian contour, preset matching degree threshold value is the percentages less than 1.

Described management system includes: Foreground selection equipment, it is arranged in control chamber shell, being connected respectively with intensity of illumination detector and MMC storage card, the intensity of illumination grade based on the output of current time intensity of illumination detector is found the benchmark intensity of illumination crossing image of correspondence in MMC storage card and exports as target background image.

nullDescribed management system includes: live image splitting equipment，It is arranged in control chamber shell，With high-definition camera、MMC storage card and Foreground selection equipment connect respectively，High definition crossing image and the high definition crossing image of current time upper one second of current time is received by high-definition camera，Respectively as the first high definition crossing image and the second high definition crossing image，The gray value of each pixel of the first high definition crossing image is deducted the gray value of the pixel of correspondence position in the second high definition crossing image and takes absolute value to obtain image difference absolute value，When image difference absolute value is be more than or equal to binary-state threshold，The respective pixel of the first high definition crossing image is confirmed as active pixel，Otherwise，The respective pixel of the first high definition crossing image is confirmed as static pixel，The image of all active pixel composition in first high definition crossing image is exported as live image，Live image is made up of one or more zones of action；Morphological image processes equipment, it is arranged in control chamber shell, it is connected with live image splitting equipment, for receiving live image, and each zone of action is carried out denoising to obtain denoising subimage, fill up denoising subimage interior void and connect in denoising subimage breakpoint to obtain shaping subimage, export one or more shaping subimage.

Described management system includes: smoothing processing equipment, is arranged in control chamber shell, processes equipment with morphological image and is connected, for each the shaping subimage received is smoothed, to obtain smooth subimage.

Described management system includes: medium filtering equipment, is arranged in control chamber shell, is connected with smoothing processing equipment, processes for the smooth subimage received is performed medium filtering, to filter the scattering composition in smooth subimage, it is thus achieved that medium filtering subimage.

Described management system includes: change of scale strengthens equipment, is arranged in control chamber shell, is connected with medium filtering equipment, for the medium filtering subimage received is performed change of scale enhancement process, to obtain enhancer image.

Described management system includes: gray processing processes equipment, is arranged in control chamber shell, strengthens equipment with change of scale and is connected, for the enhancer image received is carried out gray processing process, to obtain gray processing subimage.

ARM11 processes chip and is arranged in control chamber shell, process equipment with gray processing and MMC storage card is connected respectively, each gray processing subimage is mated with benchmark pedestrian's gray processing picture, when matching degree is be more than or equal to preset matching degree threshold value, corresponding gray processing subimage is confirmed as pedestrian's subimage, calculates the number of pedestrian's subimage and exports as pedestrian's quantity.

Described management system includes: control chamber communication interface, is embedded on shell, processes chip with ARM11 and MMC storage card is connected respectively, receives pedestrian's quantity and traffic intersection address, and is sent pedestrian's quantity and traffic intersection address by wireless communication link.

As shown in Figure 2, described management system includes: municipal road lamp parametric controller, it is arranged on municipal administration sector location, including municipal road lamp communication interface and municipal road lamp controller, municipal road lamp communication interface for receiving pedestrian's quantity and traffic intersection address by wireless communication link, municipal road lamp controller is connected with municipal road lamp communication interface, for determining the unlatching density of street lamp near traffic intersection address based on pedestrian's quantity, and based on traffic intersection address, the unlatching density determined is sent to each LED street lamp near traffic intersection address by municipal road lamp communication interface, so that each LED street lamp near traffic intersection address determines the opening of self according to the unlatching density received.

Alternatively, in described management system: pedestrian's quantity is more many, near traffic intersection address, the unlatching density of street lamp is more little；Described management system also includes: control panel, is embedded on shell, processes chip with ARM11 and is connected, for real-time display line people's quantity；Control panel is the display panels including touch screen；And wireless communication link can be selected for time division duplex communication link.

It addition, wave filter, as the term suggests, it is the device that ripple is filtered." ripple " is a physical concept widely, and at electronic technology field, " ripple " is narrowly confined to refer in particular to the process of the value fluctuations in time describing various physical quantitys.The effect by various kinds of sensors of this process, is converted into the time function of voltage or electric current, is referred to as the time waveform of various physical quantity, or is referred to as signal.Because the independent variable time is continuous value, it is referred to as continuous time signal, is referred to as again analogue signal habitually.

Along with the generation of digital electronic computer technology with develop rapidly, for the ease of computer, signal is processed, create under sampling theorem instructs, continuous time signal is transformed into discrete-time signal complete theory and method.That is, only can express primary signal by original analog signal sample value on series of discrete time coordinate point and not lose any information, since what these concepts of ripple, waveform, signal were expressed is the change of various physical quantitys in objective world, it is exactly the carrier of the various information that modern society depends on for existence naturally.Information needs to propagate, and what lean on is exactly the transmission of waveshape signal.Signal its generation, conversion, transmission each link be likely to be due to the existence of environment and interference and distort, or even in quite a number of cases, this distortion is also very serious, causes that signal and entrained information thereof are embedded in the middle of noise dearly.In order to filter these noises, recover signal originally, it is necessary to use various wave filter to be filtered processing.

Adopt the indoor power device intelligence crusing robot management system of the present invention, for the technical problem that prior art urban traffic intersection Street lamps control pattern is excessively fixed, transform existing traffic intersection control chamber, increase image recognition apparatus and communication equipment to realize neighbouring pedestrian's number statistics of variables and transmission, increase municipal road lamp parametric controller to determine the unlatching density of street lamp near traffic intersection based on the real-time pedestrian's quantity received, and control the opening of each LED street lamp near traffic intersection address further, thus while not reducing city street lamp service effectiveness, reduce the operation cost of municipal administration department.

Although it is understood that the present invention discloses as above with preferred embodiment, but above-described embodiment is not limited to the present invention.For any those of ordinary skill in the art, without departing under technical solution of the present invention ambit, all may utilize the technology contents of the disclosure above and technical solution of the present invention is made many possible variations and modification, or be revised as the Equivalent embodiments of equivalent variations.Therefore, every content without departing from technical solution of the present invention, the technical spirit of the foundation present invention, to any simple modification made for any of the above embodiments, equivalent variations and modification, all still falls within the scope of technical solution of the present invention protection.

Claims (2)

1. an indoor power device intelligence crusing robot management system, described management system includes control chamber main body, municipal road lamp parametric controller, control chamber communication interface, ARM11 processes chip and high-definition camera, control chamber communication interface, ARM11 processes chip and high-definition camera is all disposed within control chamber main body, municipal road lamp parametric controller is arranged on far-end, high-definition camera and ARM11 process chip for determining pedestrian's quantity of traffic intersection, control chamber communication interface processes chip with ARM11 and is connected, for pedestrian's quantity of traffic intersection is sent to municipal road lamp parametric controller.

2. indoor power device intelligence crusing robot management system as claimed in claim 1, it is characterised in that described management system includes:

Control chamber main body, selecting handle, jumping conjunction position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface, stand-by power supply, shell and ARM11 to process chip including connecting terminal block, remote manual control, ARM11 processes chip and selects with connecting terminal block, remote manual control handle, jumping conjunction position indicator, divide-shut brake button, analog input interface, switch value input interface, mains-supplied interface and stand-by power supply to be connected respectively；

Remote manual control selects handle for realizing the switching of manual operation on the spot and remote manipulation on the spot；

Analog input interface includes signal conditioning circuit, genlock circuit and analog to digital conversion circuit；

Stand-by power supply is ultracapacitor, and its operating temperature is 40 degrees below zero between 70 degree above freezing, and efficiency for charge-discharge is between 90% to 95%；

Shell adopts corrosion resistant stainless steel material；

Intensity of illumination detector, is arranged on control chamber shell, for detecting the real-time lighting intensity of traffic intersection position, determines and export the intensity of illumination grade of correspondence according to real-time lighting intensity；

High-definition camera, is arranged on control chamber shell, and for traffic intersection is shot, to obtain high definition crossing image, the resolution of high definition crossing image is 1920 × 1080；

MMC storage card, it is arranged in control chamber shell, for prestoring multiple benchmark intensity of illumination crossings image, the corresponding intensity of illumination grade of each benchmark intensity of illumination crossing image, each benchmark intensity of illumination crossing image is that traffic intersection is carried out shooting the image obtained in advance by high-definition camera under without any pedestrian's state under corresponding intensity of illumination grade, MMC storage card is additionally operable to prestore traffic intersection address, binary-state threshold, benchmark pedestrian's gray processing picture and preset matching degree threshold value, benchmark pedestrian's gray processing picture is the gray processing picture only including benchmark pedestrian contour, preset matching degree threshold value is the percentages less than 1；

Foreground selection equipment, it is arranged in control chamber shell, being connected respectively with intensity of illumination detector and MMC storage card, the intensity of illumination grade based on the output of current time intensity of illumination detector is found the benchmark intensity of illumination crossing image of correspondence in MMC storage card and exports as target background image；

nullLive image splitting equipment，It is arranged in control chamber shell，With high-definition camera、MMC storage card and Foreground selection equipment connect respectively，High definition crossing image and the high definition crossing image of current time upper one second of current time is received by high-definition camera，Respectively as the first high definition crossing image and the second high definition crossing image，The gray value of each pixel of the first high definition crossing image is deducted the gray value of the pixel of correspondence position in the second high definition crossing image and takes absolute value to obtain image difference absolute value，When image difference absolute value is be more than or equal to binary-state threshold，The respective pixel of the first high definition crossing image is confirmed as active pixel，Otherwise，The respective pixel of the first high definition crossing image is confirmed as static pixel，The image of all active pixel composition in first high definition crossing image is exported as live image，Live image is made up of one or more zones of action；

Morphological image processes equipment, it is arranged in control chamber shell, it is connected with live image splitting equipment, for receiving live image, and each zone of action is carried out denoising to obtain denoising subimage, fill up denoising subimage interior void and connect in denoising subimage breakpoint to obtain shaping subimage, export one or more shaping subimage；

Smoothing processing equipment, is arranged in control chamber shell, processes equipment with morphological image and is connected, for each the shaping subimage received is smoothed, to obtain smooth subimage；

Medium filtering equipment, is arranged in control chamber shell, is connected with smoothing processing equipment, processes for the smooth subimage received is performed medium filtering, to filter the scattering composition in smooth subimage, it is thus achieved that medium filtering subimage；

Change of scale strengthens equipment, is arranged in control chamber shell, is connected with medium filtering equipment, for the medium filtering subimage received is performed change of scale enhancement process, to obtain enhancer image；

Gray processing processes equipment, is arranged in control chamber shell, strengthens equipment with change of scale and is connected, for the enhancer image received is carried out gray processing process, to obtain gray processing subimage；

ARM11 processes chip and is arranged in control chamber shell, process equipment with gray processing and MMC storage card is connected respectively, each gray processing subimage is mated with benchmark pedestrian's gray processing picture, when matching degree is be more than or equal to preset matching degree threshold value, corresponding gray processing subimage is confirmed as pedestrian's subimage, calculates the number of pedestrian's subimage and exports as pedestrian's quantity；

Control chamber communication interface, is embedded on shell, processes chip with ARM11 and MMC storage card is connected respectively, receives pedestrian's quantity and traffic intersection address, and is sent pedestrian's quantity and traffic intersection address by wireless communication link；

Municipal road lamp parametric controller, it is arranged on municipal administration sector location, including municipal road lamp communication interface and municipal road lamp controller, municipal road lamp communication interface for receiving pedestrian's quantity and traffic intersection address by wireless communication link, municipal road lamp controller is connected with municipal road lamp communication interface, for determining the unlatching density of street lamp near traffic intersection address based on pedestrian's quantity, and based on traffic intersection address, the unlatching density determined is sent to each LED street lamp near traffic intersection address by municipal road lamp communication interface, so that each LED street lamp near traffic intersection address determines the opening of self according to the unlatching density received；

Pedestrian's quantity is more many, and near traffic intersection address, the unlatching density of street lamp is more little；

Control panel, is embedded on shell, processes chip with ARM11 and is connected, for real-time display line people's quantity.