CN106371837B - Alternating current-direct current monitoring system of electric substation configuration interface automation construction method and device - Google Patents
Alternating current-direct current monitoring system of electric substation configuration interface automation construction method and device Download PDFInfo
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- CN106371837B CN106371837B CN201610780971.1A CN201610780971A CN106371837B CN 106371837 B CN106371837 B CN 106371837B CN 201610780971 A CN201610780971 A CN 201610780971A CN 106371837 B CN106371837 B CN 106371837B
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 31
- 238000010276 construction Methods 0.000 title claims abstract description 20
- 238000000034 method Methods 0.000 claims abstract description 28
- 238000000137 annealing Methods 0.000 claims abstract description 19
- 238000005457 optimization Methods 0.000 claims description 16
- 239000004744 fabric Substances 0.000 claims description 7
- 230000011218 segmentation Effects 0.000 claims description 5
- 238000001816 cooling Methods 0.000 claims description 4
- 238000010422 painting Methods 0.000 claims description 4
- 238000013461 design Methods 0.000 abstract description 5
- 238000005516 engineering process Methods 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 8
- 125000000524 functional group Chemical group 0.000 description 2
- 238000005204 segregation Methods 0.000 description 2
- 241001269238 Data Species 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000018109 developmental process Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION 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
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
- G06Q50/06—Electricity, gas or water supply
Abstract
The present invention relates to a kind of alternating current-direct current monitoring system of electric substation configuration interface automation construction method and devices, belong to configuration Interface Design Technology field.Monitoring system configuration graphical interfaces is divided by function as multiple regions the present invention, a variety of logic business are subdivided into each region, it is converted the complexity problem of various businesses in the autoplacement of graphical interfaces between the template of instantiation using functional area template, service logic mould plate technique, simple geometrical relationship between template internal element, monitoring and control configuration figure can be automatically generated.The present invention brings great convenience to substation automation construction, and non-drawing time is greatly reduced.The present invention also optimizes drawing primitive arrangement using annealing algorithm, realizes the uniformity layout of each pel in monitoring system configuration graphical interfaces.
Description
Technical field
The present invention relates to alternating current-direct current monitoring system of electric substation configuration interface automation construction method and devices, belong to configuration circle
Face design field.
Background technique
With the development of microchip scientific and technological level, the application of a large amount of New Sensing Technologies, the number that China's smart grid is formed
Word information in addition to inheriting tradition it is many kinds of, relevance is strong the features such as other than, the feature of another maximum is exactly information magnanimity.This
A little mass datas need to be established according to the relationship of function, region, logic, association etc. Various Complex well arranged, clear bright
, overall unified management order, for the time of engineering construction, the quality of engineering participant be all very big challenge.
Work is drawn at the monitoring system configuration interface for covering mass data, is an emphasis and the difficulty in automated construction
Point, it is beautiful and uniform in order to reach, need to spend the time of all day to exchange with user, repeatedly modification optimization.All business figures
It will so be designed, under causing efficiency relatively low, the pressure caused by automation engineering construction personnel is big, it is also very desirable to from
Dynamic topology is supported, to improve efficiency, mitigate personnel's burden.
Summary of the invention
The object of the present invention is to provide a kind of alternating current-direct current monitoring system of electric substation configuration interface automation construction method and dresses
It sets, to solve the problems, such as that monitoring system configuration interface drafting working efficiency is low, burden is big.
The present invention provides a kind of monitoring system of electric substation configuration interface automation building side to solve above-mentioned technical problem
Method, method includes the following steps:
1) graphical interfaces of monitoring system of electric substation is divided by function as several regions, establishes corresponding functional areas
Template, and be a variety of logic business by each region segmentation, establish corresponding service logic template;
2) using functional areas template and service logic template respectively to the layout of various pels in functional areas and service logic
It is arranged.
This method further include the service logic block inside the functional areas postponed to cloth and the pel position inside block into
Row iteration optimization.
The iteration optimization realizes that annealing algorithm objective function is as follows using annealing algorithm:
F(Xi, T) and=aL (Xi,T)+bC(Xi,T)+bU(Xi,T)+dQ(Xi,T)
Wherein i is the number of iterations, and X is the original state of various pels, and T is annealing algorithm initial temperature, a, b, c, d difference
It is the weight factor of L, C, U, Q, L is the line overall length of each region and main transformer, and C is that line intersects sum between each region, and U is each
Area uniformity, Q are all areas uniformity summations.
The functional areas template has with properties: functional areas are in the coordinate position of painting canvas, the area occupied of rectangle, rectangle
The density degree of internal distribution members, the distance of different neighboring regions and functional areas relative positional relationship.
The service logic template has with properties: position coordinates, region shape and adjacent industry in functional areas
The positional relationship for template of being engaged in.
The layout process of iteration optimization is as follows:
A. multiple business inside functional areas are evenly arranged using functional areas template, and close to the element in business
Degree carries out disturbance adjustment;
B. objective function adjusted is calculated, whether the value after judging disturbance is less than first value, if being less than, keeps in current
State judges whether to receive if being not less than as the original state of disturbance next time according to Metropolis criterion;
C. judge that random perturbation whether is terminated under Current Temperatures generates new state according to setting criterion, if it is, after
It is continuous that functional areas are disturbed;Otherwise, cooling annealing is carried out by reducing parameters of temperature T, reenters circulation process;
D. the then graphing when meeting the convergence criterion of setting, terminates process.
The present invention also provides a kind of alternating current-direct current monitoring system of electric substation configuration interface automation construction device, the device packets
It includes template and establishes unit and pel arrangement unit,
The template establishes unit for being divided by function the graphical interfaces of monitoring system of electric substation for several
Corresponding functional areas template is established in region, and is a variety of logic business by each region segmentation, establishes corresponding service logic mould
Plate;
The pel arrangement unit is used for according to functional areas template and service logic template respectively to functional areas and business
The layout of various pels is arranged in logic.
The device further include the service logic block inside the functional areas postponed to cloth and the pel position inside block into
The module of row iteration optimization.
The iteration optimization using annealing algorithm realize,
F(Xi, T) and=aL (Xi,T)+bC(Xi,T)+bU(Xi,T)+dQ(Xi,T)
Wherein i is the number of iterations, and X is the original state of various pels, and T is annealing algorithm initial temperature, a, b, c, d difference
It is the weight factor of L, C, U, Q, L is the line overall length of each region and main transformer, and C is that line intersects sum between each region, and U is each
Area uniformity, Q are all areas uniformity summations.
The beneficial effects of the present invention are: monitoring system configuration graphical interfaces is divided by function as multiple areas the present invention
Domain is subdivided into a variety of logic business in each region, using functional area template, service logic mould plate technique by graphical interfaces
The complexity problem of various businesses is converted between the template of instantiation, is simple several between template internal element in autoplacement
What relationship, can automatically generate monitoring and control configuration figure.The present invention brings great convenience to substation automation construction, contracts significantly
Subtract non-drawing time, improved efficiency, alleviates personnel's burden.The present invention also carries out drawing primitive arrangement using annealing algorithm excellent
Change, realizes the uniformity layout of each pel in monitoring system configuration graphical interfaces.
Detailed description of the invention
Fig. 1-a is the main wiring diagram template of main transformer model;
Fig. 1-b is double female, single female main wiring diagram templates;
Fig. 1-c is double master tape bypasses, single female main wiring diagram template;
Fig. 1-d is 2/3 wiring, double female, single female main wiring diagram templates;
Fig. 2 is interval Template Manager schematic diagram;
Fig. 3 is the optimized flow chart of monitoring system of electric substation configuration interface automation construction method.
Specific embodiment
A kind of embodiment of alternating current-direct current monitoring system of electric substation configuration interface automation construction method of the invention
Monitoring system configuration graphical interfaces is divided by function as multiple regions the present invention, is subdivided into each region more
Kind of logic business, using functional area template, service logic mould plate technique by various businesses in the autoplacement of graphical interfaces
Complexity problem is converted between the template of instantiation, simple geometrical relationship between template internal element, alternating current-direct current substation
Monitoring system configuration interface automation constructing technology scheme, the specific implementation step of this method are as follows:
1. graphical interfaces is divided by function as multiple regions according to multiple functional groups that interface is realized, and will be each
The logic business feature embodied in region according to the pel in functional areas, is divided into multiple logic business areas.
The multiple functional groups realized according to interface carry out functional regional division, such as the function point of main wiring diagram to interface
Area can be divided into the level-ones subregions such as higher-pressure region, middle pressure area, low-pressure area, main transformer area usually according to voltage class;Other business functions
Also similar, for example line segregation figure generally comprises line segregation Wiring area, analog quantity area, control amount area, method of operation area, light
Child alarm area, route pressing plate area etc..Several typical templates of main wiring diagram, such as Fig. 1-a, Fig. 1-b, Fig. 1-c and Fig. 1-d institute
Show.
When design function area template, each functional areas should have with properties: coordinate position of the functional areas in painting canvas;Square
The area occupied of shape;The density degree of rectangle inside distributed component;The distance of different neighboring regions;It closes functional areas relative position
System.Service logic template should have position coordinates, region shape, the positional relationship with adjacent service template in functional areas
Attribute, the service groups convenient for being formed after template instances are uniformly distributed;The position of each element inside service logic template
Coordinate can proportionally scale the spacing between element according to the position of the change and adjustment element of region shape.
2. using functional areas template and service logic template respectively to the layout of various pels in functional areas and service logic
It is arranged.
The layout process of functional areas is as follows: selecting a suitable template according to plant stand engineering design;Main transformer model is selected,
Main transformer layout is completed as shown in Fig. 1-a;Voltage class and bus type for peripheral region, select suitable bus template;
The structure of main transformer and bus-bar area is ultimately generated as shown in Fig. 1-b, Fig. 1-c and Fig. 1-d, is the layout of three kinds of different type buses
Template.
There are bus, bus outlet, PT, CT, mother, high, normal, basic three side of transformer etc. in each logic business function division
Interval type.The format designs such as the direction of equipment associated graphic, position, spacing, region, color are gone out into typical pel sample first
Formula forms pel template.According to substation project gap model data, corresponding partiting template (selection format such as Fig. 2 institute is selected
Show);Selected template is dragged in functional areas, partiting template between being drawn after instantiation automatically inside subregion;The multiple moulds being dragged in
Plate example, adjust automatically entirety size, region shape is in the same size, is evenly distributed in functional areas;Finally complete main transformer and each
By stages every line, complete main wiring diagram integral layout.
In order to realize the uniformity layout of each pel in monitoring system configuration graphical interfaces, the function that the present invention also postpones cloth
The pel position inside service logic block and block inside energy area is iterated optimization.The present embodiment using annealing algorithm into
Row iteration optimizes, objective function used by annealing algorithm are as follows:
F(Xi, T) and=aL (Xi,T)+bC(Xi,T)+bU(Xi,T)+dQ(Xi,T)
Wherein i is the number of iterations, and X is the original state (coordinate position) of various pels, and T is annealing algorithm initial temperature,
A, b, c, d are the weight factor of L, C, U, Q respectively.L is the line overall length of each region and main transformer;C is that line is handed between each region
Fork sum;U is each area uniformity, mainly calculates adjoining distance between each adjacent functional areas and block at a distance from boundary;Q
It is all functional areas uniformity summations, the uniformity of each functional areas mainly calculates: the frontier distance of service groups and functional areas, function
The painting canvas area that all elements averagely occupy in institute's service groups in adjoining distance and functional areas in energy area between service groups is i.e. first
Part density.
For the specific implementation flow of this method as shown in figure 3, after first automation is laid out successfully, entered function area adjusts rank
Section.Then multiple business automatic uniforms inside functional areas are distributed, and the component density in business is adjusted.Institute is active
After the adjustment of energy area, calculating target function, if the value after disturbance (adjustment of pel position) is not less than first value, according to
Metropolis criterion judges whether to receive, and less than first value, keeps in current state, the original state as disturbance next time.
The adjustment since functional areas is until temporary disturbance initial state, and a successful process recycles at last, then according to setting criterion
(such as cycle-index whether be less than it Markov Chain value K), judge whether to terminate under Current Temperatures random perturbation generate it is new
State, the present embodiment judges whether the cycle-index of the process is less than its Markov Chain value K, then continues less than K to function
It can area's disturbance;If it is greater than K, cooling annealing is carried out by reducing parameters of temperature T, reenters circulation process;When satisfaction is set
Then graphing when fixed convergence criterion (for example successive ignition, each objective function value difference are less than some limit value), terminates stream
Journey.K value is Markov Chain value, with vector XiElement number is related, this is a mathematical concept, need not provide here accurately really
Determine method.
Based on the above process, monitoring system of electric substation configuration interface automatic layout tool constructed by the present invention is being practiced
In, convenience is brought to substation automation engineering construction, the labor intensity of construction personnel is alleviated, when drawing is greatly reduced
Between.
A kind of embodiment of alternating current-direct current monitoring system of electric substation configuration interface automation construction device of the invention
Monitoring system of electric substation configuration interface automation construction device includes that template establishes unit, pel cloth in the present embodiment
Set unit and iterative optimization unit, template establish unit for by the graphical interfaces of monitoring system of electric substation be divided by function for
Corresponding functional areas template is established in several regions, and is a variety of logic business by each region segmentation, establishes corresponding business
Logic template;Pel arrangement unit is used for using functional areas template and service logic template respectively in functional areas and service logic
The layout of various pels is arranged;Service logic block and area inside functional areas of the iterative optimization unit for being postponed to cloth
Pel position inside block is iterated optimization.The specific implementation means of each unit have carried out in the embodiment of method in detail
Illustrate, which is not described herein again.
Claims (3)
1. a kind of alternating current-direct current monitoring system of electric substation configuration interface automation construction method, which is characterized in that this method include with
Lower step:
1) graphical interfaces of monitoring system of electric substation is divided by function as several regions, establishes corresponding functional areas mould
Plate, and be a variety of logic business by each region segmentation, establish corresponding service logic template;The service logic template has
With properties: the positional relationship of position coordinates, region shape and adjacent service template in functional areas;Service logic template
The position coordinates of internal each pel can proportionally be scaled according to the position of the change and adjustment pel of region shape
Spacing between pel;
2) layout of various pels in functional areas and service logic is carried out respectively using functional areas template and service logic template
Arrangement;
This method further includes that the service logic block inside the functional areas postponed to cloth and the pel position inside block change
Generation optimization;
The iteration optimization realizes that annealing algorithm objective function is as follows using annealing algorithm:
F(Xi, T) and=aL (Xi,T)+bC(Xi,T)+bU(Xi,T)+dQ(Xi,T)
Wherein i is the number of iterations, and X is the original state of various pels, and T is annealing algorithm initial temperature, a, b, c, d be respectively L,
C, the weight factor of U, Q, L are the line overall lengths of each region and main transformer, and C is that line intersects sum between each region, and U is each region
The uniformity, Q are all areas uniformity summations;
The layout process of iteration optimization is as follows:
A. multiple business inside functional areas are evenly arranged using functional areas template, and to the component density in business into
Row disturbance adjustment;The disturbance adjustment, which refers to, is adjusted pel position;
B. objective function adjusted is calculated, whether the value after judging disturbance is less than first value, if being less than, keeps in current state
As next time, the original state of disturbance judges whether to receive if being not less than according to Metropolis criterion;
C. judge that random perturbation whether is terminated under Current Temperatures generates new state according to setting criterion, if it is, continuing pair
Functional areas disturbance;Otherwise, cooling annealing is carried out by reducing parameters of temperature T, reenters circulation process;
D. the then graphing when meeting the convergence criterion of setting, terminates process.
2. alternating current-direct current monitoring system of electric substation configuration interface automation construction method according to claim 1, feature exist
In the functional areas template has with properties: functional areas are in the coordinate position of painting canvas, the area occupied of rectangle, rectangle inside
The density degree of distributed component, the distance of different neighboring regions and functional areas relative positional relationship.
3. a kind of alternating current-direct current monitoring system of electric substation configuration interface automation construction device, which is characterized in that the device includes mould
Plate establishes unit and pel arrangement unit,
The template establishes unit for being divided by function the graphical interfaces of monitoring system of electric substation for several regions,
Corresponding functional areas template is established, and is a variety of logic business by each region segmentation, establishes corresponding service logic template;Institute
Stating service logic template has with properties: the position of position coordinates, region shape and adjacent service template in functional areas
Set relationship;The position coordinates of each pel inside service logic template can be according to the position of the change and adjustment pel of region shape
It sets, can proportionally scale the spacing between pel;
The pel arrangement unit is used for according to functional areas template and service logic template respectively to functional areas and service logic
In the layouts of various pels be arranged;
The device further includes that the service logic block inside the functional areas postponed to cloth and the pel position inside block change
The module of generation optimization;
The iteration optimization is using annealing algorithm realization, the objective function which uses are as follows:
F(Xi, T) and=aL (Xi,T)+bC(Xi,T)+bU(Xi,T)+dQ(Xi,T)
Wherein i is the number of iterations, and X is the original state of various pels, and T is annealing algorithm initial temperature, a, b, c, d be respectively L,
C, the weight factor of U, Q, L are the line overall lengths of each region and main transformer, and C is that line intersects sum between each region, and U is each region
The uniformity, Q are all areas uniformity summations;
The layout process of iteration optimization is as follows:
A. multiple business inside functional areas are evenly arranged using functional areas template, and to the component density in business into
Row disturbance adjustment;The disturbance adjustment, which refers to, is adjusted pel position;
B. objective function adjusted is calculated, whether the value after judging disturbance is less than first value, if being less than, keeps in current state
As next time, the original state of disturbance judges whether to receive if being not less than according to Metropolis criterion;
C. judge that random perturbation whether is terminated under Current Temperatures generates new state according to setting criterion, if it is, continuing pair
Functional areas disturbance;Otherwise, cooling annealing is carried out by reducing parameters of temperature T, reenters circulation process;
D. the then graphing when meeting the convergence criterion of setting, terminates process.
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CN108563441B (en) * | 2018-03-23 | 2022-01-18 | 德阳指尖秘码科技有限公司 | Power monitoring platform generation method and device |
CN111091477A (en) * | 2018-10-24 | 2020-05-01 | 国网浙江省电力有限公司 | Automatic layout method and system for temporary construction of transformer substation engineering |
CN109583068B (en) * | 2018-11-22 | 2019-09-20 | 国网浙江省电力有限公司嘉兴供电公司 | Secondary system of intelligent substation rapid modeling system and method based on main wiring diagram |
CN111176636A (en) * | 2019-12-31 | 2020-05-19 | 新奥数能科技有限公司 | Method and device for realizing graphical configuration of comprehensive energy system |
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