CN106682847A - Emergency selecting method and system of iron tower maintainers - Google Patents

Emergency selecting method and system of iron tower maintainers Download PDF

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CN106682847A
CN106682847A CN201710018347.2A CN201710018347A CN106682847A CN 106682847 A CN106682847 A CN 106682847A CN 201710018347 A CN201710018347 A CN 201710018347A CN 106682847 A CN106682847 A CN 106682847A
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attendant
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steel tower
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CN106682847B (en
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严军荣
卢玉龙
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Hangzhou Houbo Technology Co Ltd
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    • GPHYSICS
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    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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Abstract

The invention discloses an emergency selecting method and system of iron tower maintainers. The system comprises a module for calling the position information of an iron tower which needs emergent maintenance and maintainer information, a distance matrix module for calculating the distance between the iron tower and the maintainers, a busy coefficient matrix module for setting the busy coefficients of the maintainers and a module for calculating the availability matrix of the maintainers and sorting and selecting the maintainers. The method includes: determining the position of the iron tower, determining the distance between the iron tower and each maintainer according to the position to form a distance matrix, determining the busy coefficient of each maintainer according the states of maintenance work orders in the current system to form a busy coefficient matrix, calculating the availability matrix of the maintainers through matrix calculation, and sorting to obtain an optical selecting result. By the system and the method, the maintainer can be emergently selected when emergent problems of the communication iron tower occur.

Description

A kind of steel tower attendant meets an urgent need system of selection and system
Technical field
The invention belongs to communication iron tower maintenance technology field, more particularly to a kind of steel tower attendant meets an urgent need system of selection And system.
Background technology
Current communication iron tower is main by manually being detected and being safeguarded, is aided in completing on a small quantity by steel tower on-line monitoring system. Two ways needs processing method during Emergency Maintenance without reference to steel tower.To safeguarding when needing Emergency Maintenance there is presently no steel tower Personnel carry out the technical scheme of emergent selection, and a kind of steel tower attendant emergent system of selection and system are proposed for this.
The content of the invention
The technical problems to be solved by the invention are that attendant emergent selection is asked when burning issue occurs in communication iron tower Topic, proposes a kind of steel tower attendant emergent system of selection and system.
Steel tower system application scenarios based on Internet of Things of the present invention, as shown in Figure 1.In communication iron tower fixed position Install sensor equipment, sensor collection steel tower relevant parameter is simultaneously transmitted to system by communication module, and system is to sensing data Preserved and processed, client is obtained information needed with system interaction.
The overall system architecture of the steel tower system based on Internet of Things is as shown in Figure 2.Hardware includes communication iron tower In itself, the sensing equipment on tower body, communication module and the system of sensing equipment carry out real-time Communication for Power;Systems soft ware part Including system database, data processing platform (DPP), data management distribution platform, wherein system database is received from sensing equipment Sensing data simultaneously preserves all system journals, and the data that data processing platform (DPP) is transferred in system database are processed and analyzed, The respective record that data management distribution platform is received in the data processed result and system database of data processing platform (DPP) is managed Reason and issue;System application platform includes management equipment and client, and management equipment includes but is not limited to work station, computer etc. and sets Apply, client includes but is not limited to the forms such as APP, wechat, Html webpages;The application personnel of the system include but is not limited to management Personnel and attendant, its interface are respectively management equipment and client.
It is of the invention to realize relying on above-mentioned application scenarios and system architecture, various kinds of sensors detection steel tower is installed on tower body Correspondence parameter, system carries out data analysis and finds whether steel tower catastrophe failure occurs, it is necessary to Emergency Maintenance.
The emergent selection system of steel tower attendant proposed by the present invention, including transfer the positional information for needing Emergency Maintenance steel tower And attendant's information module, calculating the distance between attendant and steel tower matrix module, the busy system of setting attendant Matrix number module, calculating attendant's availability matrix and the selecting module that sorts.
1st, the positional information and attendant's information module for needing Emergency Maintenance steel tower are transferred:System is transferred needs Emergency Maintenance The positional information of steel tower;System transfers current all of attendant's information, and its number is designated as N, and attendant's information includes dimension The positional information of shield personnel and the maintenance work list information related to attendant.
2nd, the distance between attendant and steel tower matrix module are calculated:The N number of attendant of system-computed and steel tower away from From being designated as xi, i ∈ [1, N], composition distance matrix X=(x1,x2,x3,…,xN)。
The 3rd, the busy coefficient matrix module of attendant is set:System is according to the dimension related to N number of attendant transferred Shield job note information, determines the busy-idle condition value of each attendant, is designated as yi, i ∈ [1, N], composition busy coefficient matrix Y= diag(y1,y2,y3,…,yN), Y is the diagonal matrix of N × N, and the span of attendant's busy coefficient value is 0<U≤yi≤ The value of V, wherein U, V is set in advance in systems, yiSmaller expression attendant is now more idle for value, yiThe bigger expression of value is safeguarded Personnel's maintenance task now is more urgent.
4th, attendant's availability matrix and the selecting module that sorts are calculated:System-computed attendant's availability matrix Z= XY=(z1,z2,z3,…,zN), wherein zi=xi·yi, 1≤i≤N.Attendant's availability value ziBy attendant and steel tower Distance value xiBusy coefficient y current with attendantiMultiplication is obtained.Each element value ascending order arrangement in matrix Z is obtained into matrix A (to adopt With the respective function or other sort methods commonly used in MATLAB), so as to be maintained staff availability's sequence, prioritizing selection row The attendant of sequence forward (z values are smaller) carries out Emergency Maintenance.
Steel tower attendant meets an urgent need the system block diagram of selection system, as shown in Figure 3.
The present invention proposes a kind of emergent system of selection of steel tower attendant, and it is as follows:
Step 1, transfer the positional information and attendant's information for needing Emergency Maintenance steel tower.
System transfers current all of attendant's information, and its number is designated as N, and attendant's information includes attendant's Positional information and the maintenance work list information related to attendant.
Step 2, calculating the distance between attendant and steel tower matrix.
The N number of attendant of system-computed and the distance of steel tower, are designated as xi, i ∈ [1, N], composition distance matrix X=(x1,x2, x3,…,xN)。
Step 3, the busy coefficient matrix that attendant is set.
System determines the busy of each attendant according to the maintenance work list information related to N number of attendant transferred State value, is designated as yi, i ∈ [1, N], composition busy coefficient matrix Y=diag (y1,y2,y3,…,yN), Y is N × N to angular moment Battle array, the span of attendant's busy coefficient value is 0<U≤yiThe value of≤V, wherein U, V is set in advance in systems, yiValue is got over Small expression attendant is now more idle, yiValue is bigger to represent that attendant's maintenance task now is more urgent.
Step 4, calculating attendant's availability matrix and sequencing selection.
System-computed attendant availability matrix Z=XY=(z1,z2,z3,…,zN), wherein zi=xi·yi, 1≤i ≤N.Attendant's availability value ziBy attendant and steel tower distance value xiBusy coefficient y current with attendantiIt is mutually multiplied Arrive.Each element value ascending order arrangement in matrix Z is obtained into matrix A (using the respective function or other sequence sides commonly used in MATLAB Method), so as to be maintained staff availability's sequence, the attendant of prioritizing selection sequence forward (z values are smaller) is promptly tieed up Shield.So far, the emergent selection of steel tower attendant terminates.
The method flow diagram of the emergent system of selection of steel tower attendant, as shown in Figure 4.
The method of the present invention and system have following two advantages:
(1) calculated by the distance between attendant and steel tower matrix and the current busy coefficient matrix of attendant Go out attendant's availability matrix, realize that communication iron tower needs the emergent selection of attendant during Emergency Maintenance.
(2) based on the calculating to attendant's availability matrix, it is easy to quickly select most suitable attendant.
Brief description of the drawings
Fig. 1 is application scenarios schematic diagram of the invention;
Fig. 2 is application scenarios overall system architecture figure of the invention;
Fig. 3 is system block diagram of the invention;
Fig. 4 is flow chart of the method for the present invention;
Attendant's busy coefficient calculated curve figure when Fig. 5 is regular maintenance in the embodiment of the present invention.
Specific embodiment
The preferred embodiment of the present invention is elaborated below.
Steel tower system application scenarios based on Internet of Things of the present invention, as shown in Figure 1.In communication iron tower fixed position Install sensor equipment, sensor collection steel tower relevant parameter is simultaneously transmitted to system by communication module, and system is to sensing data Preserved and processed, client is obtained information needed with system interaction.
The overall system architecture of the steel tower system based on Internet of Things is as shown in Figure 2.Hardware includes communication iron tower In itself, the sensing equipment on tower body, communication module and the system of sensing equipment carry out real-time Communication for Power;Systems soft ware part Including system database, data processing platform (DPP), data management distribution platform, wherein system database is received from sensing equipment Sensing data simultaneously preserves all system journals, and the data that data processing platform (DPP) is transferred in system database are processed and analyzed, The respective record that data management distribution platform is received in the data processed result and system database of data processing platform (DPP) is managed Reason and issue;System application platform includes management equipment and client, and management equipment includes but is not limited to work station, computer etc. and sets Apply, client includes but is not limited to the forms such as APP, wechat, Html webpages;The application personnel of the system include but is not limited to management Personnel and attendant, its interface are respectively management equipment and client.
It is of the invention to realize relying on above-mentioned application scenarios and system architecture, various kinds of sensors inspection is installed in tower body certain position Survey steel tower correspondence parameter.The inventive method and system embodiment are realized as follows:
The emergent selection system of steel tower attendant proposed by the present invention, including extract need Emergency Maintenance steel tower position module, Transfer attendant's information module, the busy for calculating the distance between attendant and steel tower matrix module, attendant being set Coefficient matrix module, calculating attendant's availability matrix and the selecting module that sorts.
1st, the positional information and attendant's information module for needing Emergency Maintenance steel tower are transferred:System transfers current all of dimension Shield personal information, its number is designated as N, and attendant's information includes the positional information and the dimension related to attendant of attendant Shield job note information., it is necessary to the numbering of Emergency Maintenance steel tower is A001 in the present embodiment, its position latitude and longitude coordinates is (116.3 ° of E, 39.9 ° of N).System registry attendant's number N=5, the maintenance work list state difference of current 5 attendants For:Idle, regular maintenance and performance level is safeguarded for 80%, regular maintenance and safeguards that performance level is 20%, Emergency Maintenance, sky It is not busy.
2nd, the distance between attendant and steel tower matrix module are calculated.The N number of attendant of system-computed and steel tower away from From being designated as xi, i ∈ [1, N], composition distance matrix X=(x1,x2,x3,…,xN).In the present embodiment, each attendant is obtained Current location simultaneously respectively obtains x using general longitude and latitude distance calculating method1=1km, x2=1.5km, x3=3km, x4= 0.5km, x5=5km, constitutes distance matrix X=(x1,x2,x3,…,xN)=(1,1.5,3,0.5,5).
The 3rd, the busy coefficient matrix module of attendant is set:System is according to the dimension related to N number of attendant transferred Shield job note information, determines the busy-idle condition value of each attendant, is designated as yi, i ∈ [1, N], composition busy coefficient matrix Y= diag(y1,y2,y3,…,yN), Y is the diagonal matrix of N × N, and the span of attendant's busy coefficient value is 0<U≤yi≤ The value of V, wherein U, V is set in advance in systems, yiSmaller expression attendant is now more idle for value, yiThe bigger expression of value is safeguarded Personnel's maintenance task now is more urgent.In the present embodiment, if current attendant is idle, busy coefficient y=U=1 is set; If current attendant sets busy coefficient y=V=10 just in Emergency Maintenance;If current attendant is just daily Safeguard, then safeguard that performance level calculates busy coefficient value y according to current, the calculating function of busy coefficient y (is as shown in Figure 5 straight See display graphical representation function), so as to obtain 5 busy coefficient respectively y of attendant1=1, y2=2, y3=8, y4=10, y5=1, busy coefficient matrix Y=diag (1,2,8,10,1) is constituted according to personnel's order, Y is N × N to angular moment Battle array.
4th, attendant's availability matrix and the selecting module that sorts are calculated:System-computed attendant's availability matrix Z= XY=(z1,z2,z3,…,zN), wherein zi=xi·yi, 1≤i≤N.Attendant's availability value ziBy attendant and steel tower Distance value xiBusy coefficient y current with attendantiMultiplication is obtained.Each element value ascending order arrangement in matrix Z is obtained into matrix A (to adopt With the respective function or other sort methods commonly used in MATLAB), so as to be maintained staff availability's sequence, prioritizing selection row The attendant of sequence forward (z values are smaller) carries out Emergency Maintenance.In the present embodiment, Z=XY=(1,3,24,5,5) is used Sort function pairs matrix Z carries out ascending sort in MATLAB, i.e. A=sort (Z)=(1,3,5,5,24), and the personnel of being maintained can Sorted with property, attendant of the preferential prioritizing selection apart from steel tower 1km.
The present invention proposes a kind of emergent system of selection of steel tower attendant, and it is as follows:
Step 1, extraction need the positional information and attendant's information of Emergency Maintenance steel tower.
System transfers current all of attendant's information, and its number is designated as N, and attendant's information includes attendant's Positional information and the maintenance work list information related to attendant., it is necessary to the numbering of Emergency Maintenance steel tower is in the present embodiment A001, its position latitude and longitude coordinates are (116.3 ° of E, 39.9 ° of N).System registry attendant's number N=5, current 5 maintenances The maintenance work list state of personnel is respectively:Idle, regular maintenance and performance level is safeguarded for 80%, regular maintenance and has been safeguarded It it is 20%, Emergency Maintenance, free time into degree.
Step 2, calculating the distance between attendant and steel tower matrix.
The N number of attendant of system-computed and the distance of steel tower, are designated as xi, i ∈ [1, N], composition distance matrix X=(x1,x2, x3,…,xN).In the present embodiment, each attendant current location is obtained and using general longitude and latitude distance calculating method point X is not obtained1=1km, x2=1.5km, x3=3km, x4=0.5km, x5=5km, constitutes distance matrix X=(x1,x2,x3,…, xN)=(1,1.5,3,0.5,5).
Step 3, the busy coefficient matrix that attendant is set.
System determines the busy of each attendant according to the maintenance work list information related to N number of attendant transferred State value, is designated as yi, i ∈ [1, N], composition busy coefficient matrix Y=diag (y1,y2,y3,…,yN), Y is N × N to angular moment Battle array, the span of attendant's busy coefficient value is 0<U≤yiThe value of≤V, wherein U, V is set in advance in systems, yiValue is got over Small expression attendant is now more idle, yiValue is bigger to represent that attendant's maintenance task now is more urgent.In the present embodiment, If current attendant is idle, busy coefficient y=U=1 is set;If current attendant is set just in Emergency Maintenance Busy coefficient y=V=10;If current attendant just in regular maintenance, safeguards that performance level calculates busy according to current The calculating function of coefficient value y, busy coefficient y is (being display graphical representation function directly perceived) as shown in Figure 5, so as to obtain 5 The busy coefficient of attendant is respectively y1=1, y2=2, y3=8, y4=10, y5=1, constitute busy coefficient according to personnel's order Matrix Y=diag (1,2,8,10,1), Y are the diagonal matrix of N × N.
Step 4, calculating attendant's availability matrix and sequencing selection.
System-computed attendant availability matrix Z=XY=(z1,z2,z3,…,zN), wherein zi=xi·yi, 1≤i ≤N.Attendant's availability value ziBy attendant and steel tower distance value xiBusy coefficient y current with attendantiIt is mutually multiplied Arrive.Each element value ascending order arrangement in matrix Z is obtained into matrix A (using the respective function or other sequence sides commonly used in MATLAB Method), so as to be maintained staff availability's sequence, the attendant of prioritizing selection sequence forward (z values are smaller) is promptly tieed up Shield.In the present embodiment, Z=XY=(1,3,24,5,5) carries out ascending sort using sort function pairs matrix Z in MATLAB, That is A=sort (Z)=(1,3,5,5,24), is maintained staff availability's sequence, maintenance people of the prioritizing selection apart from steel tower 1km Member.So far, the emergent selection of steel tower attendant terminates.
Certainly, those of ordinary skill in the art is it should be appreciated that above example is intended merely to illustrate this hair Bright, and limitation of the invention is not intended as, as long as within the scope of the invention, change, modification to above example are all Protection scope of the present invention will be fallen into.

Claims (10)

1. the emergent selection system of a kind of steel tower attendant, it is characterised in that the positional information of Emergency Maintenance steel tower is needed including transferring And attendant's information module, calculating the distance between attendant and steel tower matrix module, the busy system of setting attendant Matrix number module and calculating attendant's availability matrix and the selecting module that sorts.
2. the emergent selection system of steel tower attendant according to claim 1, it transfers the position for needing Emergency Maintenance steel tower Information and attendant's information module are characterised by:System transfers the positional information for needing Emergency Maintenance steel tower;System is transferred Current all of attendant's information, its number is designated as N, attendant's information include the positional information of attendant and with maintenance The related maintenance work list information of personnel.
3. the emergent selection system of steel tower attendant according to claim 1, it is calculated between attendant and steel tower Distance matrix module is characterised by:The N number of attendant of system-computed and the distance of steel tower, are designated as xi, i ∈ [1, N], constitute away from From matrix X=(x1,x2,x3,…,xN)。
4. the emergent selection system of steel tower attendant according to claim 1, its busy coefficient square that attendant is set Array module is characterised by:System determines each to safeguard people according to the maintenance work list information related to N number of attendant transferred The busy-idle condition value of member, is designated as yi, i ∈ [1, N], composition busy coefficient matrix Y=diag (y1,y2,y3,…,yN), Y is N × N Diagonal matrix, the span of attendant's busy coefficient value is 0<U≤yiThe value of≤V, wherein U, V sets in advance in systems Put, yiSmaller expression attendant is now more idle for value, yiValue is bigger to represent that attendant's maintenance task now is more urgent.
5. the emergent selection system of steel tower attendant according to claim 1, it calculates attendant's availability matrix simultaneously Sequencing selection module is characterised by:System-computed attendant availability matrix Z=XY=(z1,z2,z3,…,zN), its Middle zi=xi·yi, 1≤i≤N, attendant's availability value ziBy attendant and steel tower distance value xiCurrently hurried with attendant Not busy coefficient yiMultiplication is obtained;Each element value ascending order arrangement in matrix Z is obtained into matrix A, so as to be maintained staff availability row Sequence, the forward attendant of prioritizing selection sequence carries out Emergency Maintenance.
6. the emergent system of selection of a kind of steel tower attendant, it is characterised in that comprise the following steps:
Step 1, extraction need the positional information and attendant's information of Emergency Maintenance steel tower;
Step 2, calculating the distance between attendant and steel tower matrix;
Step 3, the busy coefficient matrix that attendant is set;
Step 4, calculating attendant's availability matrix and sequencing selection.
7. the emergent system of selection of steel tower attendant according to claim 6, its step 1 is characterised by:System is transferred Need the positional information of Emergency Maintenance steel tower;System transfers current all of attendant's information, and its number is designated as N, safeguards people Member's information includes the positional information and the maintenance work list information related to attendant of attendant.
8. the emergent system of selection of steel tower attendant according to claim 6, its step 2 is characterised by:System-computed N Individual attendant and the distance of steel tower, are designated as xi, i ∈ [1, N], composition distance matrix X=(x1,x2,x3,…,xN)。
9. the emergent system of selection of steel tower attendant according to claim 6, its step 3 is characterised by:System according to The maintenance work list information related to N number of attendant transferred, determines the busy-idle condition value of each attendant, is designated as yi, i ∈ [1, N], constitutes busy coefficient matrix Y=diag (y1,y2,y3,…,yN), Y is the diagonal matrix of N × N, attendant's busy system The span of numerical value is 0<U≤yiThe value of≤V, wherein U, V is set in advance in systems, yiValue it is smaller expression attendant this When more idle, yiValue is bigger to represent that attendant's maintenance task now is more urgent.
10. the emergent system of selection of steel tower attendant according to claim 6, its step 4 is characterised by:System-computed Attendant availability matrix Z=XY=(z1,z2,z3,…,zN), wherein zi=xi·yi, 1≤i≤N, attendant can use Property value ziBy attendant and steel tower distance value xiBusy coefficient y current with attendantiMultiplication is obtained;By each element in matrix Z The arrangement of value ascending order obtains matrix A, and so as to be maintained staff availability's sequence, prioritizing selection sequence forward attendant carried out Emergency Maintenance.
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CN108416510A (en) * 2018-02-10 2018-08-17 杭州后博科技有限公司 A kind of steel tower patrol task list method of real-time adjustment and system
CN108416510B (en) * 2018-02-10 2021-04-27 杭州后博科技有限公司 Iron tower inspection task list real-time adjustment method and system

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