CN109215155A - A kind of building site management system based on technology of Internet of things - Google Patents

Abstract

The building site management system based on technology of Internet of things that the present invention provides a kind of, including attendance module, for carrying out attendance to the personnel for entering building site；Vehicle management module carries out Car license recognition for the vehicle to disengaging building site；Locating module, for carrying out position positioning to the personnel in building site；Environment monitoring module carries out real-time monitoring to dust, noise, wind speed, temperature and humidity；Equipment monitoring module, for carrying out real-time monitoring to each electrical equipment；Monitoring center carries out unified analysis and processing to the monitoring data of modules.The building site management system based on technology of Internet of things that the present invention provides a kind of, the personnel for entering building site can be examined, the personnel can be positioned in real time, environment on building site is monitored in real time, the vehicle of disengaging is recorded, electrical equipment is managed, the conduct monitoring at all levels to building site may be implemented, the generation that accident can effectively be reduced, to timely reply emergency situations.

Description

A kind of building site management system based on technology of Internet of things

Technical field

The present invention relates to monitoring fields, and in particular to a kind of building site management system based on technology of Internet of things.

Background technique

Currently, the construction area in many building sites is all very big, various materials are stacked in construction site, and there are one on building site A little danger zones, if new employee is strayed into the region and accident may occur, in addition, also need to carry out on building site environmental monitoring, Equipment management etc..In the prior art, the management in building site is often directed in a certain respect, for example is only to be monitored to environment. Therefore we need a kind of building site management system vdiverse in function to carry out same management to building site.

Summary of the invention

In view of the above-mentioned problems, the present invention is intended to provide a kind of building site management system based on technology of Internet of things.

The purpose of the present invention is realized using following technical scheme:

Provide a kind of building site management system based on technology of Internet of things, comprising:

The inlet in building site is arranged in attendance module, for carrying out attendance to the personnel for entering building site；

The inlet in building site is arranged in vehicle management module, carries out Car license recognition for the vehicle to disengaging building site；

Locating module, for carrying out position positioning to the personnel in building site；

Environment monitoring module is arranged in the environmental monitoring sites in building site, to dust, noise, wind speed, temperature and humidity into Row real-time monitoring；

Equipment monitoring module is connect with electrical equipment in building site, for each electrical equipment use duration, using secondary Number, power consumption carry out real-time monitoring and long-range control；

Monitoring center is arranged in the command post in building site, and respectively with attendance module, vehicle management module, positioning mould Block, environment monitoring module, equipment monitoring module are communicated, and the monitoring data of modules are carried out with unified analysis and place Reason.

Preferably, the attendance module include camera, into building site personnel wear safety cap and radio frequency identification read Card device；The safety cap is equipped with the RF identification chip that store the identification id of the personnel；The radio frequency identification card reader Be arranged site entrance at, for reading the identification id stored on the RF identification chip, radio frequency identification card reader and The monitoring center is communicated；The camera is located at site entrance, for shooting the image of the personnel.

Preferably, the locating module includes intelligent label, communication node, route device and Cloud Server；The intelligence Label is placed on the personnel in building site, for sending positioning signal to the communication node in its communication range；It is described Communication node is distributed in the multiple regions in building site, for receiving the positioning signal, and measures the signal of the positioning signal The signal strength is sent to the route device by intensity；The route device is placed in building site, is used for periodically The signal strength is received, and compression processing is carried out to the signal strength received within the same period, and according to compression result Routing data packet is generated, the routing data packet is sent to the Cloud Server；The Cloud Server and the monitoring center It is communicated, is used to analyze the routing data packet, determines the position of the personnel, and send the position to The monitoring center.

Preferably, the intelligent label includes label wireless communication module, positioning signal sending module used for positioning, uses In the main control unit of control wireless communication module and positioning signal sending module；The main control unit by wireless communication module and Communication node is communicated.

Preferably, the Cloud Server is also used to control the time synchronization of communication node.

Preferably, dressing with the personnel has intelligent wearable device；The intelligent wearable device includes between personnel The intercommunication module of intercommunication and wireless communication module for being communicated with monitoring center.

Preferably, the device management module includes data acquisition unit and remote control unit；The data acquisition is single Member is connected in the electrical equipment in building site and is communicated with the remote control unit；The data acquisition unit includes more A electricity consumption acquisition device, power input of each electricity consumption acquisition device respectively with each electrical equipment are attached；It is described remote Process control unit is the APP of the monitoring center or setting on mobile terminals；Remote control unit passes through data acquisition unit Realize the long-range control to electrical equipment.

It, can be with the invention has the benefit that the present invention provides a kind of building site management system based on technology of Internet of things The personnel for entering building site are examined, the personnel can be positioned in real time, the environment on building site are carried out real-time Monitoring, the vehicle of disengaging is recorded, electrical equipment is managed, it is vdiverse in function, the full side to building site may be implemented Position monitoring, can effectively reduce the generation of accident, to timely reply emergency situations.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings, but the embodiment in attached drawing is not constituted to any limit of the invention System, for those of ordinary skill in the art, without creative efforts, can also obtain according to the following drawings Other attached drawings.

Fig. 1 shows the frame construction drawing of an illustrative embodiment of the invention.

Appended drawing reference:

Attendance module 1, vehicle management module 2, locating module 3, environment monitoring module 4, equipment monitoring module 5, monitoring in The heart 6.

Specific embodiment

The invention will be further described with the following Examples.

Referring to Fig. 1, the building site management system based on technology of Internet of things that the embodiment of the invention provides a kind of, the system packet It includes:

The inlet in building site is arranged in attendance module 1, for carrying out attendance to the personnel for entering building site；

The inlet in building site is arranged in vehicle management module 2, carries out Car license recognition for the vehicle to disengaging building site；

Locating module 3, for carrying out position positioning to the personnel in building site；

Environment monitoring module 4, is arranged in the environmental monitoring sites in building site, to dust, noise, wind speed, temperature and humidity Carry out real-time monitoring；

Equipment monitoring module 5 is connect with electrical equipment in building site, for the use duration to each electrical equipment, use Number, power consumption carry out real-time monitoring and long-range control；

Monitoring center 6, is arranged in the command post in building site, and respectively with attendance module 1, vehicle management module 2, positioning Module 3, environment monitoring module 4, equipment monitoring module 5 are communicated, and carry out unified analysis to the monitoring data of modules And processing.

In one embodiment, the attendance module 1 include camera, into building site personnel wear safety cap and penetrate Frequency identification card reader；The safety cap is equipped with the RF identification chip that store the identification id of the personnel；The radio frequency is known Other card reader is arranged at site entrance, for reading the identification id stored on the RF identification chip, radio frequency identification Card reader is communicated with the monitoring center 6；The camera is located at site entrance, for shooting the figure of the personnel Picture.

In one embodiment, the locating module 3 includes intelligent label, communication node, route device and Cloud Server； The intelligent label is placed on the personnel in building site, for sending positioning letter to the communication node in its communication range Number；The communication node is distributed in the multiple regions in building site, for receiving the positioning signal, and measures the positioning signal Signal strength, the signal strength is sent to the route device；The route device is placed in building site, is used for week The signal strength is received to phase property, and compression processing is carried out to the signal strength received within the same period, and according to pressure Sheepshank fruit generates routing data packet, and the routing data packet is sent to the Cloud Server；The Cloud Server and the prison Control center 6 is communicated, and is used to analyze the routing data packet, determines the position of the personnel, and by institute's rheme It sets and is sent to the monitoring center 6.

In one embodiment, the intelligent label includes label wireless communication module, positioning signal used for positioning hair Send module, the main control unit for controlling wireless communication module and positioning signal sending module；The main control unit passes through wireless Communication module and communication node are communicated.

In one embodiment, the Cloud Server is also used to control the time synchronization of communication node.

In one embodiment, dressing with the personnel has intelligent wearable device；The intelligent wearable device includes using The intercommunication module of intercommunication and the wireless communication module for being communicated with monitoring center 6 between personnel.

In one embodiment, the device management module includes data acquisition unit and remote control unit；The number It is connected in the electrical equipment in building site according to acquisition unit and is communicated with the remote control unit；The data acquisition is single Member includes multiple electricity consumption acquisition devices, and power input of each electricity consumption acquisition device respectively with each electrical equipment is connected It connects；The remote control unit is the APP of the monitoring center 6 or setting on mobile terminals；Remote control unit passes through number The long-range control to electrical equipment is realized according to acquisition unit.

The above embodiment of the present invention provides a kind of building site management system based on technology of Internet of things, can to enter building site Personnel examine, the personnel can be positioned in real time, the environment on building site is monitored in real time, into Vehicle out is recorded, and is managed to electrical equipment, vdiverse in function, and the conduct monitoring at all levels to building site may be implemented, can be with The effective generation for reducing accident, to timely reply emergency situations.

Preferably, location data packet is sent to route device by communication node, comprising:

(1) location data packet is directly sent to route device by the communication node in route device wireless communication distance；

(2) node for exceeding route device wireless communication distance, is sent to road for location data packet by forward-path By device.

Preferably, the forward-path is generated by following methods, comprising:

(1) it is just selected at random from the communication node being in route device communication distance every a regular time section One communication node is as data convergence center；

(2) data convergence center is with power P_sdgdThe first information is sent to neighbouring communication node, includes hair in the first information Penetrate power P_sdgdWith level FLR=1；

The communication node of the information is received, first judges oneself whether to have cached and has levels, if so, will then receive The first information abandoned, if it is not, level FLR=1 is cached, as the affiliated level of the communication node, so Afterwards according to the transmission power P received_sdgd, with power P_sdgdThe second information is sent to neighbouring communication node, includes in the second information Transmission power P_sdgdWith level FLR=2；

And so on, communication node receives i-th_sdgdThat layer communication node is sent includes transmission power P_sdgdWith level FLR =i_sdgdAfter+1 third information, first judge oneself whether to have cached and have levels, if so, the third information that will then receive It is abandoned, if not provided, by level FLR=i_sdgd+ 1 caches, as the affiliated level of the communication node, then to receive The transmission power P arrived_sdgdFor transmission power, the 4th information is sent to neighbouring communication node, includes transmission power in the 4th information P_sdgdWith level FLR=i_sdgd+2；

When data convergence center needs to collect communication node data, the big communication node of level is small toward level by data Communication node is sent, final to be all pooled to data convergence center, in this way, just generating forward-path.

In the preferred embodiment, the thinking for generating route is to be layered all communication nodes, can thus be reached To the purpose for generating forward-path.When using this method, of less demanding to the computing capability of communication node, therefore can be quick Ground generates forward-path, effectively reduces the power consumption of communication node, also reduces the power consumption of entire building site management system, accelerate The speed that data are transmitted in the present invention.

Preferably, route device carries out compression processing to the signal strength received within the same period, comprising:

Route device carries out compression processing to the signal strength with following function:

δ_GD=ε_N×Mη_N×1

In formula, N is the sum of communication node；M is corresponding to the signal strength that route device receives in one cycle The sum of intelligent label；δ_GDFor matrix of consequence；ε_N×MFor aggregated data matrix；ε_N×MIn element be a_nm, a_nmIt indicates n-th to lead to Letter node receives the signal strength of the positioning signal of m-th of intelligent label sending, n ∈ [1, N], m ∈ [1, M]；η_N×1For communication Node monitors matrix, and it is gd that communication node, which monitors the element in matrix,_n, gd_nIndicate whether n-th of communication node receives positioning Signal, if n-th of communication node receives positioning signal, gd_n=1, otherwise gd_n=0；

In the preferred embodiment, period treatment creatively is pressed from described in multiple communication nodes using route device Signal strength, in this way, the signal strength from multiple communication nodes received in a cycle is limited, so that it may root Aggregated data matrix is generated according to the limited signal strength from multiple communication nodes, then aggregated data matrix is carried out Its volume is compressed in operation, and this reduces the transmission pressure in system when communication network transmission data, it is ensured that number in the present invention According to quick transmission, achieve intention less than beneficial effect, the transmission of data is completed using the less communication resource, to this It is low that the communication resource of invention monitoring system occupies degree.

Preferably, the time synchronization of the Cloud Server control communication node, comprising:

(1) selection of cluster head communication node is carried out, Cloud Server starts message to all communication node sending times are synchronous, Each communication node n, after time of receipt (T of R) synchronous beginning message, calculating it using following function becomes probability of cluster head P_gdt(n),

In formula, E_n1Indicate that communication node n present energy is remaining, E_n0For energy of communication node n when incipient, n ∈ [1, N], N are the sum of communication node, d_gdaveFor the communication node to the average distance of neighboring communication node, ε_aFor free space Path loss, E_gdaveFor the average energy consumption of data of transmitting-receiving for communication node, n_nowCluster head currently to have selected is led to Believe the quantity of node, n_THFor the cluster head communication node quantity threshold value of setting, work as n_now>n_THWhen, f (n_now,n_TH)=0, works as n_now =n_THWhen, f (n_now,n_TH)=1, η₁、η₂For weight coefficient, η₁∈ (0,1), η₂∈ (0,1), works as P_gdt(n)>P_gdthWhen, the communication Node becomes cluster head communication node, wherein P_gdthFor the threshold value as cluster head communication node；

(2) sub-clustering is carried out, it includes validity period T that each cluster head communication node, which broadcasts one,_deadField and sub-clustering identification code The sub-clustering message of field；Non- cluster head communication node first checks whether after receiving sub-clustering message and has been recorded with sub-clustering identification code, If it is not, checking validity period T_deadField, if the sub-clustering message is also before the deadline, which communication node writes down is It sends sub-clustering message to get off to it, while by sub-clustering identification code recording, then be broadcasted sub-clustering message, in this way, in sub-clustering Received in message validity sub-clustering message and the communication node of sub-clustering identification code is not recorded then become the member of the same cluster Communication node；

(3) time synchronization in cluster is carried out, in every cluster, all member communication's nodes are with probability P_sjgdTemporal information is sent out It is sent to cluster head communication node, probability P_sjgdA dynamic value, value according to member communication's number of nodes, member communication's node Depending on the energy and synchronization of time intenals that use, since the temporal information of the 2nd member communication's node received, if The temporal information tgd of communication node_nMeet with minor function, cluster head is then by the temporal information t of mistake_gdnIt abandons:

In formula, t_gdnIndicate the temporal information of the gdn member communication's node, gdn ∈ [1, Ngd], Ngd are member in cluster The sum of communication node, Dgd are control parameter, for controlling the essence that cluster head communication node receives member communication's node time information Degree, cluster head communication node calculates the average value of the time of member communication's node in the cluster other than cluster head communication node, with this Time of the average value as the cluster；

(4) current time of oneself is sent Cloud Server, cloud clothes by time synchronization between cluster head communication node, all cluster heads Business device averages to the time of all cluster head communication nodes, then using the value obtained as the final of this time synchronization End value is sent each cluster head communication node by value, Cloud Server, and finally all non-cluster head communication nodes are all with its affiliated cluster Cluster head communication node carry out time synchronization.

In the present embodiment, it is contemplated that the cumulative number of communication node dump energy and communication node as cluster head is kept away Having exempted from some communication node repeatedly becomes cluster head, so that the case where prematurely ruing out of electricity, extends the service life of communication node, Synchronization accuracy is balanced with the relationship between communication node power consumption, improves the efficiency of time synchronization, is multiple in monitoring system Node cooperative work provides temporal consistency and guarantees.

Preferably, Cloud Server analyzes the routing data packet, determines the position of the personnel, comprising:

It sets with side length as L_gdDifferentiation square communication zone that communication node is covered be included in the inside so that logical The communication zone that letter node is covered all falls in differentiation square the inside, sets k as the number recorded amounts of operation, k's is initial Value is 1；The square currently calculated is set to calculate square, the side length for calculating square is lgd_k, lgd_kInitial value is L_gd, calculate square and be equivalent to distinguish square when initializing first time；Error threshold is set as TH_gd, by a road The number that label is positioned as corresponding to the signal strength for the positioning signal for including in data packet is denoted as Q, q ∈ [1, Q], for the The calculating of the position of q positioning label, comprising:

1. the coordinate that q-th positions label is initialized as to calculate the centre coordinate of square, positioning tag coordinate is denoted as (x_q,k,y_q,k)；

2. according to following function calculate this q-th positioning label to n-th of communication node distance Dgd_n,q:

In formula, xgd_nFor the abscissa of n-th of communication node, ygd_nThe ordinate of n-th of communication node, n ∈ [1, N], N For the sum of communication node；

3. calculating the positioning that q-th of positioning label that n-th of communication node measures is issued with following function to believe Number signal strength sgd_nq:

In formula, strgd₀It averages and obtains by repeatedly test in communication node use environment, distance is Dgd₀ When, the signal strength for the positioning signal that intelligent label that communication node monitors issues, wgd is the weak index of signal, n ∈ [1, N], N is the sum of communication node；

4. solving the optimization problem of following functions, comparison communication node monitoring Matrix C MP η can be obtained_N×1:

s.t.CMPε_N×M×CMPη_N×1=δ_GD,

In formula, CMP ε_N×MTo compare aggregated data matrix, the element of comparison aggregated data matrix is Sgd_nm, δ_GDTo pass back The matrix of consequence come, CMP η_N×1In element be cmp η_n；

5. because CMP η_N×1In most desired result be only 1 and 0, so calculating CMP η using following formula_N×1It is inclined Poor ERGD:

To CMP η_N×1In all element be ranked up, find out its median cmp η_n, CMP η_N×1Middle nth elements it is inclined Poor WCGD_nIt is acquired by following formula:

6. if ERGD < TH_gd, then by (x_q,k,y_q,k) as m-th of abnormal coordinate for entering personnel, otherwise, into 7.；

7. the square square Agd four small for being equally divided into area equation will be calculated_k、Bgd_k、Cgd_k、Dgd_k, Mei Ge little The side length of square is L_gd/2^k, then for each small square, execute 1. arrive 5. respectively, four small squares have been carried out Bi Hou, into 8.；

8. the value of k is added 1, by lgd as square is calculated by the smallest small square of ERGD_kValue be updated to L_gd/ 2^k-1, then execute and 1. arrive 6..

In the preferred embodiment, the feature strong using 6 computing capability of monitoring center, to the routing number from route device It is handled according to packet, calculates comparison communication node and monitor matrix, then monitor the most ideal knot of matrix with comparison communication node again Fruit comparison calculates coordinate of the comparison communication node monitoring matrix deviation less than or equal to the intelligent label of error threshold as a result, in this way It is assured that the position of worker, positioning accuracy is high, and can position simultaneously to multiple intelligent labels, simultaneously as The signal strength for the positioning signal that multiple intelligent labels that route device receives within a fixed cycle issue is by routing Volume is compressed after the processing of device, reduces the communication pressure of system, and then Cloud Server is pointedly according to routing data Matrix of consequence in packet carry out positions calculations so that it is determined that the intelligent label position so that building site management system of the invention It can smoothly realize the function of its locating module, the cooperation of route device and Cloud Server realizes the indoor positioning system in the present invention The data compression of system is transmitted.

Finally it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than the present invention is protected The limitation of range is protected, although explaining in detail referring to preferred embodiment to the present invention, those skilled in the art are answered Work as understanding, it can be with modification or equivalent replacement of the technical solution of the present invention are made, without departing from the reality of technical solution of the present invention Matter and range.

Claims (9)

1. a kind of building site management system based on technology of Internet of things, characterized in that include:

The inlet in building site is arranged in attendance module, for carrying out attendance to the personnel for entering building site；

The inlet in building site is arranged in vehicle management module, carries out Car license recognition for the vehicle to disengaging building site；

Locating module, for carrying out position positioning to the personnel in building site；

Environment monitoring module is arranged in the environmental monitoring sites in building site, carries out to dust, noise, wind speed, temperature and humidity real When monitor；

Equipment monitoring module is connect with electrical equipment in building site, for each electrical equipment use duration, access times, Power consumption carries out real-time monitoring and long-range control；

Monitoring center is arranged in the command post in building site, and respectively with attendance module, vehicle management module, locating module, ring Border monitoring modular, equipment monitoring module are communicated, and the monitoring data of modules are carried out with unified analysis and processing.

2. a kind of building site management system based on technology of Internet of things according to claim 1, characterized in that the attendance mould Block include camera, into building site personnel wear safety cap and radio frequency identification card reader；The safety cap is equipped with storage The RF identification chip of the identification id of the personnel；The radio frequency identification card reader is arranged at site entrance, for reading The identification id stored on the RF identification chip, radio frequency identification card reader are communicated with the monitoring center；It is described Camera is located at site entrance, for shooting the image of the personnel.

3. a kind of building site management system based on technology of Internet of things according to claim 2, characterized in that the positioning mould Block includes intelligent label, communication node, route device and Cloud Server；The intelligent label is placed on personnel's body in building site On, for sending positioning signal to the communication node in its communication range；The communication node is distributed in more in building site A region for receiving the positioning signal, and measures the signal strength of the positioning signal, the signal strength is sent to The route device；The route device is placed in building site, is used to periodically receive the signal strength, and to same The signal strength received in a cycle carries out compression processing, and generates routing data packet according to compression result, by the routing Data packet is sent to the Cloud Server；The Cloud Server is communicated with the monitoring center, is used for the routing Data packet is analyzed, and determines the position of the personnel, and sends the position to the monitoring center.

4. a kind of building site management system based on technology of Internet of things according to claim 3, characterized in that the intelligence mark Label include label wireless communication module, positioning signal sending module used for positioning, for controlling wireless communication module and positioning The main control unit of signal transmitting module；Module and communication node are communicated the main control unit by wireless communication.

5. a kind of building site management system based on technology of Internet of things according to claim 4, characterized in that the cloud service Device is also used to control the time synchronization of communication node.

6. a kind of building site management system based on technology of Internet of things according to claim 5, characterized in that personnel's body Upper wearing has intelligent wearable device；The intelligent wearable device includes for the intercommunication module of intercommunication between personnel and for monitoring The wireless communication module of center to center communications.

7. a kind of building site management system based on technology of Internet of things according to claim 6, characterized in that the equipment pipe Managing module includes data acquisition unit and remote control unit；The data acquisition unit is connected in the electrical equipment in building site And it is communicated with the remote control unit；The data acquisition unit includes multiple electricity consumption acquisition devices, each electricity consumption acquisition Power input of the device respectively with each electrical equipment is attached；The remote control unit be the monitoring center or APP on mobile terminals is set；Remote control unit realizes the long-range control to electrical equipment by data acquisition unit.

8. a kind of building site management system based on technology of Internet of things according to claim 7, characterized in that communication node will Location data packet is sent to route device, comprising:

(1) location data packet is directly sent to route device by the communication node in route device wireless communication distance；

(2) location data packet is sent to routing dress by forward-path by the node for exceeding route device wireless communication distance It sets.

9. a kind of building site management system based on technology of Internet of things according to claim 8, characterized in that the forwarding road Diameter is generated by following methods, comprising:

(1) one is just selected at random from the communication node being in route device communication distance every a regular time section Communication node is as data convergence center；

(2) data convergence center is with power P_sdgdThe first information is sent to neighbouring communication node, includes transmission power in the first information P_sdgdWith level FLR=1；

The communication node of the information is received, first judges oneself whether to have cached and has levels, if so, will then receive One information is abandoned, if it is not, level FLR=1 is cached, as the affiliated level of the communication node, and then root According to the transmission power P received_sdgd, with power P_sdgdThe second information is sent to neighbouring communication node, includes transmitting in the second information Power P_sdgdWith level FLR=2；

And so on, communication node receives i-th_sdgdThat layer communication node is sent includes transmission power P_sdgdWith level FLR= i_sdgdAfter+1 third information, first judge oneself whether to have cached and have levels, if so, then by the third information received into Row abandons, if not provided, by level FLR=i_sdgd+ 1 caches, as the affiliated level of the communication node, then to receive Transmission power P_sdgdFor transmission power, the 4th information is sent to neighbouring communication node, includes transmission power P in the 4th information_sdgd With level FLR=i_sdgd+2；

When data convergence center needs to collect communication node data, the communication that data are small toward level of level big communication node Node is sent, final to be all pooled to data convergence center, in this way, just generating forward-path.