CN108921095A - A kind of parking occupancy management system neural network based, method and parking stall - Google Patents

Abstract

The present invention provides a kind of parking occupancy management system neural network based, method and parking stall, which passes through neural network and prejudge vehicle running path, realizes that controlling corresponding gate inhibition's column opens.Solves the technical issues of existing parking stall management waste of manpower, time.It realizes unmanned management, saves manpower, and use neural network algorithm, calculate precisely, operation stability is high, False Rate is low.

Description

A kind of parking occupancy management system neural network based, method and parking stall

Technical field

The invention belongs to parking management area, relate more specifically to parking occupancy management system neural network based, side Method and parking stall.

Background technique

With the economic development with science and technology, car ownership increases year by year, and corresponding automobile accessories infrastructure is also continuous Perfect, e.g., parking access control system is locked to parking stall.Existing Parking Stall is all behavior adjustment management mostly, and parking stall is mostly all It is to be distinguished by way of scribing line.Also there is minority managing parking space by the way of kickstand.By the way of kickstand, generally Personal management is needed, when having parking to need, administrative staff can open kickstand, and stop good to vehicle and then locks kickstand, Whole operation process is troublesome, and waste of manpower wastes time.

Summary of the invention

The technical issues of in order to solve existing parking management waste of manpower, time, the present invention provide a kind of based on nerve Parking occupancy management system, method and the parking stall of network.

Technical solution of the invention：

A kind of parking stall management method neural network based, includes the following steps：

Step S110, setting gate inhibition's column open distance, open the lateral distance that distance is vehicle distances camera；

Whether step S120, real-time capture image, and real time contrast's former frame and current frame image are identical, if they are the same, then Continue step S120；If it is different, then carrying out step S130；

Step S130, identifies image, judge it is different whether be because there is vehicle to drive into, if recognizing vehicle, Carry out step S140；If unidentified arrive vehicle, continue step S120；

Step S140 chooses t moment to the image set at t+1 moment, calculates separately t moment to t+1 moment camera and vehicle Transverse and longitudinal distance, obtain sampled data set；Sampled data concentrates the cross for including Δ x (t) for t moment vehicle distances camera To distance, Δ x (t+1) be the lateral distance of t+1 moment vehicle distances camera, Δ y (t) is t moment vehicle distances camera Fore-and-aft distance and Δ y (t+1) be t+1 moment vehicle distances camera lateral distance；

Step S150 is found the mapping relations of Δ x (t) Yu Δ y (t) by sampled data set, obtains matched curve；

Step S160, according to matched curve, when gate inhibition's column that the lateral distance delta x (t) of vehicle is equal to setting opens distance When, calculate the corresponding numerical value of anticipation fore-and-aft distance Δ y (t)；

Step S170, real time monitoring captures image, and calculates the transverse and longitudinal distance between vehicle and camera, and sentenced Disconnected, when actual lateral separation is less than or equal to, gate inhibition's column opens distance, carries out step S180；When actual lateral separation is not up to door Prohibit column and open distance, continues step S170；

Step S180 is allocated gate inhibition's column according to calculated anticipation fore-and-aft distance Δ y (t), after send commands to Corresponding gate inhibition's column controller, gate inhibition's column controller will drive the work of gate inhibition's mechanical structure, and corresponding gate inhibition's column is fallen, and vehicle is logical Row.

In a preferred embodiment of parking stall management method neural network based according to the present invention,

Identification method in step S130 is：The preparatory a large amount of vehicle pictures of typing, model, using image processing algorithm, into Row vehicle identification.

In a preferred embodiment of parking stall management method neural network based according to the present invention,

Step S150 is specifically included：

Step S151, defining Δ x (t) is input quantity, and Δ y (t) is output quantity；Have between input quantity and output quantity one it is hidden Layer is hidden, hidden layer uses weighting/sigmoid functional form,Respectively hidden layer input layer weight and hidden layer are defeated Layer weight out；The calculation formula of output quantity Δ y (t) is：

Q in formula_i- evaluation i-th of hidden layer output signal of network；p_i- evaluation i-th of hidden layer input signal of network； N_ch- hide number of layers；

Step S152 then constantly regulate neural network weight according to gradient descent method, fits Δ x (t) and Δ y to reach (t) mapping relations curve；Wherein the calculation formula of neural network weight regulative mode is：

In formula, α (0<α<It 1) is commutation factor/delay index, l_cIt (t) is learning rate l_c(t)>0。

In a preferred embodiment of parking stall management method neural network based according to the present invention,

It further include step S210：In vehicle pass-through, step S120, S130 is continued to execute, if recognizing vehicle, repeats to walk Rapid S180, corresponding gate inhibition's column keep full state；If recognizing vehicle, access control system gate inhibition's column liter is sent commands to It rises.

In a preferred embodiment of parking stall management method neural network based according to the present invention,

Step S180 is specially：According to the spacing and camera distance between anticipation fore-and-aft distance Δ y (t), gate inhibition's column The distance of first gate inhibition's column, can determine the method for salary distribution of gate inhibition's column.

A kind of parking occupancy management system neural network based of the invention, including monitoring system, gate inhibition's column control system With the gate inhibition's column controller for rising landing for access control column；

The monitoring system includes image capture module, image processing module, monitoring communication module, and described image acquires mould Block：The image on real-time capture gate inhibition's column periphery；

Image processing module includes：

Module one：Vehicle is judged whether there is by image to drive into；

Module two：To the image set of the t moment for thering is vehicle to drive into t+1 moment by image calculation method calculate vehicle away from Horizontal Distance (Δ x (t), Δ y (t)) from image processing module, obtains sampled data set；

Module three：It is constructed according to sampled data set with Δ x (t) as input quantity, Δ y (t) is the matched curve of output quantity；Root According to matched curve, when gate inhibition's column that the lateral distance delta x (t) of vehicle is equal to setting open apart from when, calculate anticipation it is longitudinal away from Data corresponding from Δ y (t)；

Monitor communication module：For identification, distance calculating numerical value to be sent to gate inhibition's column control system；

Gate inhibition's column control system includes calculating and storage unit and communication control module, described to calculate and store list Member：According to the data that monitoring communication module provides, corresponding gate inhibition's column task is distributed；Communication control module：Gate inhibition's column work The controller of corresponding gate inhibition's column is sent to as task.

The acquisition pattern of three simulation curve of module is：Defining Δ x (t) is input quantity, and Δ y (t) is output quantity；Input quantity with There is a hidden layer between output quantity, hidden layer uses weighting/sigmoid functional form,Respectively hidden layer is defeated Enter layer weight and hidden layer output layer weight；The calculation formula of output quantity Δ y (t) is：

Q in formula_i- evaluation i-th of hidden layer output signal of network；p_i- evaluation i-th of hidden layer input signal of network； N_ch- hide number of layers；

Neural network weight is then constantly regulate according to gradient descent method, to reach the mapping for fitting Δ x (t) Yu Δ y (t) Relation curve；Wherein the calculation formula of neural network weight regulative mode is：

In formula, α (0<α<It 1) is commutation factor/delay index, l_cIt (t) is learning rate l_c(t)>0。

In a preferred embodiment of parking occupancy management system neural network based according to the present invention, Men Jinzhu Controller is motor control or hydraulic control.

In a preferred embodiment of parking occupancy management system neural network based according to the present invention, the door Single or multiple gate inhibition's column controllers can be controlled by prohibiting column control system.

A kind of gate inhibition's column parking stall, including multiple parking stalls, it is characterised in that：It further include gate inhibition's column and claim 6- Gate inhibition's column control system described in 9, the inlet on each parking stall are provided with multiple gate inhibition's columns uniformly put.

Of the invention has the advantage that：

1, neural network gate inhibition column control method provided by the present invention realizes unmanned management, saves manpower.

2, neural network gate inhibition column control method provided by the present invention calculates precisely operation using neural network algorithm Stability is high, False Rate is low.

3, a kind of neural network gate inhibition column control method provided by the present invention prejudges vehicle driving road by neural network Diameter controls corresponding gate inhibition's column and opens.

Detailed description of the invention

The specific embodiment part provided and referring to the drawings, the features and advantages of the present invention will become more It is readily appreciated that, in the accompanying drawings：

Fig. 1 neural network gate inhibition's column control method operation schematic diagram；

Fig. 2 neural network gate inhibition's column control system schematic diagram；

Fig. 3 neural network gate inhibition's column control method work flow diagram；

Fig. 4 sampled point transverse and longitudinal distance calculates schematic diagram；

Fig. 5 gate inhibition's column control method neural network model figure；

Fig. 6 transverse and longitudinal is apart from mapping relations matched curve.

Specific embodiment

Exemplary embodiments of the present invention are described in detail with reference to the accompanying drawings.Illustrative embodiments are retouched It states merely for the sake of demonstration purpose, and is definitely not to the present invention and its application or the limitation of usage.

Embodiment 1：A kind of gate inhibition's column parking lot, including multiple parking stalls further include gate inhibition's column and gate inhibition's column control system System, the inlet on each parking stall is provided with multiple gate inhibition's columns uniformly put.Gate inhibition's column control system 3 is mountable to gate inhibition Near column 2,4 be monitoring system, and monitoring system is mountable near gate inhibition's column, and monitoring system is apart from the lateral, vertical of gate inhibition's column It is known during installation to distance.The operation schematic diagram in parking lot is as shown in Figure 1,1 be vehicle to be driven into figure, 2 be vertical gate inhibition Column, quantity can be able to be for one it is multiple, gate inhibition's column by motor or hydraulic control, it can be achieved that the lifting of single gate inhibition's column, when rise, vehicle It can not drive into, when falling, vehicle can be driven into.3 be gate inhibition's column control system, can control single or multiple gate inhibition's columns to go up and down, door Prohibit column control system 3 to be mountable near gate inhibition's column 2,4 be monitoring system, and monitoring system is mountable near gate inhibition's column, prison Transverse direction of the control system apart from gate inhibition's column, fore-and-aft distance are known during installation.

Embodiment 2：The working principle of neural network gate inhibition's column control system is as shown in Fig. 2, gate inhibition's column 2 includes gate inhibition's column Mechanical structure 201, gate inhibition's column controller 202, controller can be motor control, also can be hydraulic control, access control system 3 wraps It is calculated containing 301 and storage element, communication control module 302, monitoring system 4 includes camera 401, image processing module 402, communication module 403 is monitored.For shooting video image, image processing module 402 is used for the camera 401 of monitoring system 4 Image recognition, positional distance calculate, and monitoring communication module 403 will be for that will identify, distance calculates data and is sent to access control system The data that the communication control module 302 of system 3, the calculating of access control system 3 and storage element will be provided according to monitoring system 4, Gate inhibition's column task is distributed, and task is sent to the controller 202 of corresponding gate inhibition's column 2, is connected to gate inhibition's column control of task Device 202 processed will drive corresponding gate inhibition's column mechanical structure, and access control column rises, falls.

Embodiment 3：Neural network gate inhibition's column control method process is as shown in figure 3, specific step is as follows：

Step S110, setting gate inhibition's column open distance；

Whether step S120, real-time capture image, and real time contrast's former frame and current frame image are identical, if they are the same, then Continue step S120；If it is different, then carrying out step S130；

Step S130, identifies image, judge it is different whether be because there is vehicle to drive into, if recognizing vehicle, Carry out step S140；If unidentified arrive vehicle, continue step S120；

Step S140 chooses t moment to the image set at t+1 moment, calculates separately t moment to t+1 moment camera and vehicle Transverse and longitudinal distance, obtain sampled data set；Sampled data concentrates the cross for including Δ x (t) for t moment vehicle distances camera To distance, Δ x (t+1) be the lateral distance of t+1 moment vehicle distances camera, Δ y (t) is t moment vehicle distances camera Fore-and-aft distance and Δ y (t+1) be t+1 moment vehicle distances camera lateral distance；

Step S150 is found the mapping relations of Δ x (t) Yu Δ y (t) by sampled data set, obtains matched curve；

Step S160, according to matched curve, when gate inhibition's column that the lateral distance delta x (t) of vehicle is equal to setting opens distance When, calculate the corresponding numerical value of anticipation fore-and-aft distance Δ y (t)；

Step S170 step S170, real time monitoring captures image, and calculates the transverse and longitudinal distance between vehicle and camera, And judged, when actual lateral separation is less than or equal to, gate inhibition's column opens distance, carries out step S180；Work as actual lateral separation Not up to gate inhibition's column opens distance, continues step S170；

Step S180 is allocated gate inhibition's column according to calculated anticipation fore-and-aft distance Δ y (t), afterwards and sends order To corresponding gate inhibition's column controller, gate inhibition's column controller will drive the work of gate inhibition's mechanical structure, and corresponding gate inhibition's column will fall, and allow Vehicle pass-through.

Embodiment 4：In order to improve the accuracy of matched curve, advanced optimize for：

Step S110：Gate inhibition's column is set and opens distance, that is, after vehicle reaches the distance of setting at a distance from gate inhibition's column, Gate inhibition's column will open (falling).Under original state, all gate inhibition's columns all close (rise).

Step S120：The camera 401 of monitoring system 4 opens work, Real-time captured video image.Image processing module will Image captured by real time contrast's former frame and present frame shows if it find that current frame image is had any different with previous frame image There is dynamic image (having mobile object), then, in next step, if it find that current frame image is not different with previous frame image, shows Without dynamic image (no mobile object), step is repeated.

Step S130：Vehicle identification.After monitoring system 4 captures dynamic image, image processing module 402 can be to Dynamic Graph As being identified, vehicle is judged whether it is.Judgment mode is a large amount of vehicle pictures of typing, model in image processing module, benefit With image processing algorithm, vehicle identification is carried out.If recognizing vehicle, show have vehicle that will drive into, in next step, if do not known It is clipped to vehicle, then, repeats step 2.

Step S140：Image processing module 402 will utilize image processing algorithm in real time to the transverse and longitudinal of vehicle and gate inhibition's column Distance is calculated.Continuous secondary (N the is natural number) image of N of choosing successively calculates the lateral distance in sampled point as sampled point Δ x (t), fore-and-aft distance Δ y (t).As shown in figure 4, Δ x (t) is the lateral distance of t moment vehicle distances camera, Δ x (t+ It 1) is the lateral distance of t+1 moment vehicle distances camera, Δ y (t) is the fore-and-aft distance of t moment vehicle distances camera, Δ y It (t+1) is the lateral distance of t+1 moment vehicle distances camera.Image processing module is taken as N sub-picture is chosen a little, i.e., The image that selection t to t+1 moment, camera moment takes calculates separately the cross of t to t+1 camera and vehicle as sampled point Fore-and-aft distance.

Step S150：Neural network algorithm is embedded in image processing module 402.The purpose of system is to pass through hits According to, find the corresponding relationship (mapping relations) of Δ x (t) Yu Δ y (t), by calculate mapping relations, judge the following Δ x (t) and Δ The position distribution situation of y (t), and then judge the movement routine of vehicle.Neural network model is as shown in Figure 5.In figure, Δ x (t) is Input quantity, Δ y (t) are output quantity.There is a hidden layer between input quantity and output quantity, hidden layer uses weighting/sigmoid letter Number form formula,Respectively hidden layer input layer weight and hidden layer output layer weight.The purpose of neural network is to pass through To hidden layer weight Adjusting, fit the corresponding relationship of Δ x (t) Yu Δ y (t).The calculating of output quantity Δ y (t) Formula is：

Q in formula_i- evaluation i-th of hidden layer output signal of network；p_i- evaluation i-th of hidden layer input signal of network； N_ch- hide number of layers.

Then according to gradient descent method, calculation formula is neural network weight regulative mode：

In formula, α (0<α<It 1) is commutation factor/delay index, l_cIt (t) is learning rate l_c(t)>0。

Step S160：System constantly regulate according to the calculation formula of step 5 neural network weight, is fitted with reaching The mapping relations curve (Fig. 6) of Δ x (t) and Δ y (t).

Step S170：According to matched curve, calculate when vehicle reach with the restriction of gate inhibition's column apart from when, camera and vehicle Fore-and-aft distance.That is, when Δ x (t) be equal to limit apart from when, the corresponding numerical value of Δ y (t).Know the corresponding numerical value of Δ y (t), Just work will be opened by being aware of which gate inhibition's column, that is, is carried out position and is judged in advance.Monitoring system 4 is right by calculated Δ y (t) Numerical value is answered to be sent to the communication module 302 of access control system 3 by communication module 403.

Step 180：Monitoring system 4 persistently captures vehicle, counts to the transverse and longitudinal distance of vehicle and camera Calculate, when the lateral distance of vehicle and camera be less than or equal to limit apart from when, the communication module 403 of monitoring system 4 sends signal To the communication module 302 of access control system 3, inform that access control system opens work, if the transverse direction of vehicle and camera Distance not up to limits distance, then, repeats step 7.

Step 190：After access control system 3 is connected to the information of monitoring system, gate inhibition's column will be allocated, concurrently be lost one's life It enables to corresponding gate inhibition's column controller 202, gate inhibition's column controller 202 will drive gate inhibition's mechanical structure 201 to work, corresponding gate inhibition Column will be fallen, and vehicle is allowed to go together.

Step S200：The camera 401 of monitoring system 4 continues working, and image processing module 402 persistently catches vehicle It catches, catching mode is identical as 2, step 3 is captured.If capturing vehicle, show that vehicle still not entirely through gate inhibition's column, repeats to walk Rapid 9, corresponding gate inhibition's column keeps full state.If not capturing vehicle, show that vehicle had passed through gate inhibition's column, then, and monitoring The communication module 403 of system 4 sends commands to the communication module 302 of access control system 3, and access control system 3 will send and order It enables to corresponding gate inhibition's column controller 202, gate inhibition's column controller 202 will drive corresponding gate inhibition's column mechanical structure 201, driving gate Prohibit column to rise.

Although referring to illustrative embodiments, invention has been described, but it is to be understood that the present invention does not limit to The specific embodiment that Yu Wenzhong is described in detail and shows, without departing from claims limited range, this Field technical staff can make various improvement or modification to illustrative embodiments.

Claims (10)

1. a kind of parking stall management method neural network based, it is characterised in that include the following steps：

Step S110, setting gate inhibition's column open distance, open the lateral distance that distance is vehicle distances camera；

Whether step S120, real-time capture image, and real time contrast's former frame are identical as current frame image, if they are the same, then continue Carry out step S120；If it is different, then carrying out step S130；

Step S130, identifies image, judges whether different be, if recognizing vehicle, to carry out because there is vehicle to drive into Step S140；If unidentified arrive vehicle, continue step S120；

Step S140 chooses t moment to the image set at t+1 moment, calculates separately t moment to t+1 moment camera and vehicle Transverse and longitudinal distance, obtains sampled data set；Sampled data concentrate include Δ x (t) be t moment vehicle distances camera laterally away from It is the lateral distance of t+1 moment vehicle distances camera from, Δ x (t+1), Δ y (t) is the vertical of t moment vehicle distances camera It is the lateral distance of t+1 moment vehicle distances camera to distance and Δ y (t+1)；

Step S150 is found the mapping relations of Δ x (t) Yu Δ y (t) by sampled data set, obtains matched curve；

Step S160, according to matched curve, when gate inhibition's column that the lateral distance delta x (t) of vehicle is equal to setting open apart from when, meter Calculate the corresponding numerical value of anticipation fore-and-aft distance Δ y (t)；

Step S170, real time monitoring captures image, and calculates the transverse and longitudinal distance between vehicle and camera, and judged, When actual lateral separation is less than or equal to, gate inhibition's column opens distance, carries out step S180；When actual lateral separation is not up to gate inhibition Column opens distance, continues step S170；

Step S180 is allocated gate inhibition's column according to calculated anticipation fore-and-aft distance Δ y (t), after send commands to it is corresponding Gate inhibition's column controller, gate inhibition's column controller will drive the work of gate inhibition's mechanical structure, and corresponding gate inhibition's column falls, vehicle pass-through.

2. parking stall management method neural network based according to claim 1, which is characterized in that

Identification method in step S130 is：The a large amount of vehicle pictures of preparatory typing, model carry out vehicle using image processing algorithm Identification.

3. parking stall management method neural network based according to claim 1, which is characterized in that

Step S150 is specifically included：

Step S151, defining Δ x (t) is input quantity, and Δ y (t) is output quantity；There is one to hide between input quantity and output quantity Layer, hidden layer use weighting/sigmoid functional form,Respectively hidden layer input layer weight and hidden layer output Layer weight；The calculation formula of output quantity Δ y (t) is：

Q in formula_i- evaluation i-th of hidden layer output signal of network；p_i- evaluation i-th of hidden layer input signal of network；N_ch- hidden Hide number of layers；

Step S152, then constantly regulate neural network weight according to gradient descent method, fits Δ x (t) and Δ y (t) to reach Mapping relations curve；Wherein the calculation formula of neural network weight regulative mode is：

In formula, α (0<α<It 1) is commutation factor/delay index, l_cIt (t) is learning rate l_c(t)>0。

4. parking stall management method neural network based according to claim 1, it is characterised in that further include step S210：In vehicle pass-through, step S120, S130 is continued to execute, if recognizing vehicle, repeats step S180, corresponding gate inhibition Column keeps full state；If recognizing vehicle, the rise of access control system gate inhibition's column is sent commands to.

5. parking stall management method neural network based according to claim 1, it is characterised in that：Step step S180 Specially：According to the distance of anticipation fore-and-aft distance Δ y (t), the spacing between gate inhibition's column and camera distance the first gate inhibition column, It can determine the method for salary distribution of gate inhibition's column.

6. a kind of parking occupancy management system neural network based, it is characterised in that：Including monitoring system, gate inhibition's column control system With the gate inhibition's column controller for rising landing for access control column；

The monitoring system includes image capture module, image processing module, monitoring communication module, described image acquisition module： The image on real-time capture gate inhibition's column periphery；

Image processing module includes：

Module one：Vehicle is judged whether there is by image to drive into；

Module two：Vehicle distances figure is calculated by image calculation method to the image set of the t moment for having vehicle to drive into t+1 moment As the Horizontal Distance (Δ x (t), Δ y (t)) of processing module, sampled data set is obtained；

Module three：It is constructed according to sampled data set with Δ x (t) as input quantity, Δ y (t) is the matched curve of output quantity；According to quasi- Close curve, when the lateral distance delta x (t) of vehicle be equal to setting gate inhibition's column open apart from when, calculate anticipation fore-and-aft distance Δ y (t) corresponding data；

Monitor communication module：For identification, distance calculating numerical value to be sent to gate inhibition's column control system；

Gate inhibition's column control system includes calculating and storage unit and communication control module, the calculating and storage unit：Root According to the data that monitoring communication module provides, corresponding gate inhibition's column task is distributed；Communication control module：Gate inhibition's column task It is sent to the controller of corresponding gate inhibition's column.

7. parking occupancy management system neural network based according to claim 6, it is characterised in that：Module three simulates song The acquisition pattern of line is：Defining Δ x (t) is input quantity, and Δ y (t) is output quantity；There is one to hide between input quantity and output quantity Layer, hidden layer use weighting/sigmoid functional form,Respectively hidden layer input layer weight and hidden layer output Layer weight；The calculation formula of output quantity Δ y (t) is：

Q in formula_i- evaluation i-th of hidden layer output signal of network；p_i- evaluation i-th of hidden layer input signal of network；N_ch- hidden Hide number of layers；

Neural network weight is then constantly regulate according to gradient descent method, to reach the mapping relations for fitting Δ x (t) Yu Δ y (t) Curve；Wherein the calculation formula of neural network weight regulative mode is：

In formula, α (0<α<It 1) is commutation factor/delay index, l_cIt (t) is learning rate l_c(t)>0。

8. parking occupancy management system neural network based according to claim 6 or 7, it is characterised in that：Gate inhibition's column control Device processed is motor control or hydraulic control.

9. parking occupancy management system neural network based according to claim 8, it is characterised in that：Gate inhibition's column control System processed can control single or multiple gate inhibition's column controllers.

10. a kind of gate inhibition's column parking stall, including multiple parking stalls, it is characterised in that：It further include gate inhibition's column and claim 6-9 Gate inhibition's column control system, the inlet on each parking stall are provided with multiple gate inhibition's columns uniformly put.