CN106776670B - Power grid public information model auxiliary mapping method and device - Google Patents
Power grid public information model auxiliary mapping method and device Download PDFInfo
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- CN106776670B CN106776670B CN201610246133.6A CN201610246133A CN106776670B CN 106776670 B CN106776670 B CN 106776670B CN 201610246133 A CN201610246133 A CN 201610246133A CN 106776670 B CN106776670 B CN 106776670B
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- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/20—Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
- G06F16/24—Querying
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- G06F16/2457—Query processing with adaptation to user needs
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- G06Q50/06—Electricity, gas or water supply
Abstract
The invention discloses a power grid public information model auxiliary mapping method and device. The method comprises the following steps: searching a first equipment model to be mapped in the first power grid service system according to a preset searching condition in the two selected power grid service systems; displaying a second equipment model of which the mapping relation is established in the first power grid service system according to a preset basic hierarchical relation, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model; according to the established mapping relation, a third equipment model which shows that the mapping relation is established between the third equipment model and the second equipment model in the second power grid service system is displayed; and displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to the preset basic hierarchical relationship. The auxiliary mapping method can quickly reduce the checking range of the staff, accelerate the matching speed of the staff and improve the efficiency of manually determining the mapping relation.
Description
Technical Field
The invention relates to the technical field of power grid informatization, in particular to a power grid public information model auxiliary mapping method and device.
Background
With the development of social economy, the scale of power grid equipment is rapidly increased, grid structure is increasingly complex, the requirement on the operation management level of a power grid is higher and higher, and informatization technology support systems (namely various power grid business systems) respectively established by various departments of a power grid company become important means for guaranteeing the safe production and operation of the power grid. Because core concern points of all departments are different, for example, the dispatching range mainly pays attention to the running conditions of the electric energy, load and other grid systems; the safety production of the power grid mainly focuses on information such as physical positions and physical states of equipment, so that different differences exist in information structures and contents of the same equipment in respective information systems, and obstacles are brought to sharing and fusion of equipment information.
At present, many technical achievements exist in the aspect of how to solve power grid model mapping (namely establishing corresponding relations among various power grid service systems), and the heterogeneous problem of models among various systems is tried to be fully automatically solved by formulating a model mapping rule and developing a system data interface. However, in practical applications, the model mapping is automatically implemented by a program, which accounts for about 70%, and a large number of equipment models still need to be manually confirmed and checked. However, due to the lack of effective methods and tools for manual confirmation and checking, the success rate of power grid model mapping cannot be improved, and the practicability of equipment information sharing and fusion is greatly influenced.
Disclosure of Invention
In order to solve the problem that the efficiency of manually determining the mapping relation of the equipment model among the conventional power grid service systems is low, the embodiment of the invention provides a power grid public information model auxiliary mapping method and device. The technical scheme is as follows:
in one aspect, an embodiment of the present invention provides a power grid public information model auxiliary mapping method, where the method includes:
searching a first equipment model to be mapped in the first power grid service system according to a preset searching condition in the two selected power grid service systems;
displaying a second equipment model of which the mapping relation is established in the first power grid service system according to a preset basic hierarchical relation, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model;
displaying a third equipment model which is in the second power grid service system and establishes a mapping relation with the second equipment model according to the established mapping relation;
and displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship.
In the above-mentioned power grid public information model auxiliary mapping method according to the embodiment of the present invention, the method further includes:
and displaying an equipment model electrically connected with the first equipment model and an equipment model electrically connected with each equipment model in all lower-layer equipment models of the third equipment model according to a topological connection relation, so that employees can select the equipment model matched with the first equipment model and establish a corresponding mapping relation, wherein the topological connection relation is a direct electrical connection relation between the equipment models in the same power grid service system.
In the above-mentioned power grid public information model auxiliary mapping method according to the embodiment of the present invention, the displaying, according to a preset basic hierarchical relationship, all lower layer device models of the third device model in the second power grid service system includes:
and displaying all the equipment models which are in the same level with the first equipment model in all the lower-layer equipment models of the third equipment model according to a preset basic hierarchical relationship.
In the above-mentioned power grid public information model auxiliary mapping method according to the embodiment of the present invention, the preset retrieval condition includes: the device type, the device name, the business system to which the device belongs, and whether the mapping relationship is established.
In the above-mentioned power grid public information model auxiliary mapping method according to the embodiment of the present invention, the method further includes:
and marking the displayed equipment model by adopting different types of display modes.
On the other hand, an embodiment of the present invention provides a power grid public information model auxiliary mapping apparatus, where the apparatus includes:
the retrieval module is used for retrieving a first equipment model of a mapping relation to be established in the first power grid service system in the two selected power grid service systems according to a preset retrieval condition;
the first display module is used for displaying a second equipment model of which the mapping relation is established in the first power grid service system according to a preset basic hierarchical relation, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model;
the second display module is used for displaying a third equipment model which is in the mapping relation with the second equipment model in the second power grid service system according to the established mapping relation;
and the third display module is used for displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system and establish a corresponding mapping relationship.
In the above-mentioned auxiliary mapping apparatus for a power grid public information model according to an embodiment of the present invention, the apparatus further includes:
and the fourth display module is used for displaying an equipment model electrically connected with the first equipment model and an equipment model electrically connected with each equipment model in all lower-layer equipment models of the third equipment model according to a topological connection relation, so that an employee can select the equipment model matched with the first equipment model and establish a corresponding mapping relation, wherein the topological connection relation is a direct electrical connection relation between the equipment models in the same power grid service system.
In the above-mentioned auxiliary mapping apparatus for a power grid public information model according to the embodiment of the present invention, the third display module is further configured to display all device models in the same level as the first device model, among all lower-layer device models of the third device model, according to a preset basic hierarchical relationship.
In the above-mentioned power grid public information model auxiliary mapping apparatus according to the embodiment of the present invention, the preset retrieval condition includes: the device type, the device name, the business system to which the device belongs, and whether the mapping relationship is established.
In the above-mentioned auxiliary mapping apparatus for a power grid public information model according to an embodiment of the present invention, the apparatus further includes:
and the marking module is used for marking the displayed equipment model by adopting different types of display modes.
The technical scheme provided by the embodiment of the invention has the following beneficial effects:
searching a first equipment model of a mapping relation to be established in the first power grid service system according to a preset searching condition in the two selected power grid service systems; then, according to a preset basic hierarchical relationship, displaying a second equipment model of which the mapping relationship is established in the first power grid service system, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model; then, according to the established mapping relation, a third equipment model which is in the second power grid service system and establishes the mapping relation with the second equipment model is displayed; and finally, displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship. Therefore, the auxiliary mapping method can quickly narrow the employee checking range to all lower-layer equipment models of the third equipment model, so that the manual matching speed is increased, and the efficiency of manually determining the mapping relation is improved.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a flowchart of a power grid public information model auxiliary mapping method according to an embodiment of the present invention;
fig. 2 is a flowchart of a power grid public information model auxiliary mapping method according to an embodiment of the present invention;
fig. 3 is a schematic structural diagram of an auxiliary mapping device for a power grid public information model according to a second embodiment of the present invention;
fig. 4 is a schematic structural diagram of an auxiliary mapping device for a power grid public information model according to a second embodiment of the present invention;
fig. 5 is a schematic diagram of an actual application situation of a power grid public information model auxiliary mapping device according to a second embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
Example one
The embodiment of the invention provides a power grid public information model auxiliary mapping method, and referring to fig. 1, the method comprises the following steps:
and step S11, retrieving a first equipment model to be mapped in the first power grid service system according to preset retrieval conditions in the two selected power grid service systems.
In practical application, a Common Information Model (CIM) of a power grid is used as a unified semantic Information Model in a power enterprise, and is widely applied to the fields of main network scheduling, distribution network management, production management, asset management and the like. However, due to the difference between the standard understanding and the service focus, the CIM models of various power grid service systems have many differences. In addition, most power grid service systems are independently constructed at different periods according to self service requirements, and the names of equipment models included in each power grid service system are different when the power grid service system applies a CIM (common information model) for modeling. Therefore, in order to implement sharing and fusion of the power grid equipment information, a mapping relationship needs to be established between equipment models of different power grid service systems.
In general, according to the actual conditions of the CIM model and the naming specification adopted by each power grid service system, a certain strong and weak mapping rule can be determined, the mapping relation of most equipment models can be automatically determined, but a small number of equipment models still need to be checked and matched manually, and then the determination of the mapping relation can be completed.
In step S11, the two grid service systems may be arbitrarily selected, and the first grid service system may be any one of the two grid service systems, which is not limited herein. In addition, a mapping relation of the first equipment model is determined, that is, a one-to-one correspondence relation between the first equipment model in the first power grid service system and a certain equipment model in the second power grid service system is determined, and the equipment model and the first equipment model are models established according to the same power grid equipment in the power grid.
In addition, in step S11, the preset retrieval condition may include: the device type, the device name, the business system to which the device belongs, whether the mapping relation is established, and the like. The first device model may be retrieved by one or more of the above-described retrieval conditions.
And step S12, displaying a second equipment model of the established mapping relation in the first power grid service system according to the preset basic hierarchical relation, wherein the second equipment model is the upper layer equipment model closest to the first equipment model.
In this embodiment, the basic hierarchical relationship is one of two types of core relationships existing between Power grid device models in the CIM model, and specifically, the basic hierarchical relationship refers to a hierarchical relationship between various device models, such as a main Control Area (Host Control Area), a Sub Control Area (Sub Control Area), a station (Substation), a Voltage Level Area (Voltage Level), a Bay (Bay), a Transformer (Power Transformer), a Transformer Winding (Transformer Winding), a bus (Busbar Section), a Breaker (Breaker), and a Disconnector (Disconnector), that is, an upper device model to which the device model belongs and a lower device model included in the device model can be found through the basic hierarchical relationship. In step S12, the upper layer device model (i.e., the second device model) closest to the first device model and having the mapping relationship established is automatically found.
And step S13, according to the established mapping relation, displaying a third equipment model which is in the second power grid service system and establishes the mapping relation with the second equipment model.
In step S13, the third device model and the second device model are two device models that have already established a mapping relationship between the first grid service system and the second grid service system, and the method for establishing the mapping relationship may include: and automatically establishing a mapping relation according to the strong and weak mapping rules, and confirming the establishment of the mapping relation through manual checking.
And step S14, displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to the preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship.
In step S14, in the second grid service system, the grid device model that establishes the mapping relationship with the first device model certainly displays all the lower layer device models of the third device model in all the lower layer device models of the third device model, which can quickly reduce the checking range of the employee, accelerate the matching speed of the employee, and improve the efficiency of manually determining the mapping relationship.
In this embodiment, the step S14 can be implemented as follows:
and displaying all the equipment models which are in the same level with the first equipment model in all the lower-layer equipment models of the third equipment model according to the preset basic hierarchical relationship.
In this embodiment, it is shown that all the device models in the same level as the first device model in all the lower layer device models of the third device model can further narrow the checking range of the employee, accelerate the matching speed of the employee, and improve the efficiency of manually determining the mapping relationship.
Referring to fig. 2, the method may further include:
and step S15, displaying the equipment model electrically connected with the first equipment model and the equipment model electrically connected with each equipment model in all the lower-layer equipment models of the third equipment model according to the topological connection relation, so that the staff can select the equipment model matched with the first equipment model and establish a corresponding mapping relation, wherein the topological connection relation is the direct electrical connection relation between the equipment models in the same power grid service system.
In this embodiment, the topological connection relationship means that each conductive device (connecting Equipment) indicates whether the devices are connected together through a connection Node (connection Node) on a Terminal (Terminal), that is, a device model connected to the device model can be found through the Terminal and the connection Node of the device model. The topological connection relation is the other one of the two types of core relations existing between the power grid equipment models in the CIM model.
In practical application, the staff checks the electric connection equipment model information of the equipment model according to the requirement, so that the matching selection process can be further accelerated, and the matching result can be more accurate and reliable.
And step S16, marking the displayed equipment model by adopting different types of display modes. For example: identifying the mapping state of the equipment model by different colors, such as identifying the equipment model with established and confirmed mapping relation by green, identifying the equipment model with automatically established but unconfirmed mapping relation by yellow, identifying the equipment model without established mapping relation by red, and the like; and when a certain equipment model is selected, displaying the equipment model and the equipment model corresponding to the mapping relation in bold.
In this embodiment, different types of display modes are adopted, the displayed equipment models are marked, so that the staff can conveniently observe the equipment models, and the quick checking and matching of the equipment models by the staff are facilitated. It should be noted that the step S16 can be performed synchronously with the steps S12, S13 and S14, and fig. 2 is only an example and is not intended to limit the present application.
According to the embodiment of the invention, a first equipment model of a mapping relation to be established in a first power grid service system is retrieved from two selected power grid service systems according to a preset retrieval condition; then, according to a preset basic hierarchical relationship, displaying a second equipment model of which the mapping relationship is established in the first power grid service system, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model; then, according to the established mapping relation, a third equipment model which is in the second power grid service system and establishes the mapping relation with the second equipment model is displayed; and finally, displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship. Therefore, the auxiliary mapping method can quickly narrow the employee checking range to all lower-layer equipment models of the third equipment model, so that the manual matching speed is increased, and the efficiency of manually determining the mapping relation is improved.
Example two
The embodiment of the invention provides a power grid public information model auxiliary mapping device, which adopts the method described in the first embodiment and refers to fig. 3, and the device comprises: a retrieval module 201, a first display module 202, a second display module 203, and a third display module 204.
The retrieval module 201 is configured to retrieve, according to a preset retrieval condition, a first device model of a mapping relationship to be established in the first power grid service system from the two selected power grid service systems.
In practical application, a Common Information Model (CIM) of a power grid is used as a unified semantic Information Model in a power enterprise, and is widely applied to the fields of main network scheduling, distribution network management, production management, asset management and the like. However, due to the difference between the standard understanding and the service focus, the CIM models of various power grid service systems have many differences. In addition, most power grid service systems are independently constructed at different periods according to self service requirements, and the names of equipment models included in each power grid service system are different when the power grid service system applies a CIM (common information model) for modeling. Therefore, in order to implement sharing and fusion of the power grid equipment information, a mapping relationship needs to be established between equipment models of different power grid service systems.
In general, according to the actual conditions of the CIM model and the naming specification adopted by each power grid service system, a certain strong and weak mapping rule can be determined, the mapping relation of most equipment models can be automatically determined, but a small number of equipment models still need to be checked and matched manually, and then the determination of the mapping relation can be completed.
In this embodiment, the two grid service systems may be arbitrarily selected, and the first grid service system may be any one of the two grid service systems, which is not limited herein. In addition, a mapping relation of the first equipment model is determined, that is, a one-to-one correspondence relation between the first equipment model in the first power grid service system and a certain equipment model in the second power grid service system is determined, and the equipment model and the first equipment model are models established according to the same power grid equipment in the power grid.
In this embodiment, the preset retrieval condition may include: the device type, the device name, the business system to which the device belongs, whether the mapping relation is established, and the like. The first device model may be retrieved by one or more of the above-described retrieval conditions.
The first display module 202 is configured to display, according to a preset basic hierarchical relationship, a second device model in the first grid service system, where the second device model is an upper layer device model closest to the first device model, and the mapping relationship is established in the first grid service system.
In this embodiment, the basic hierarchical relationship is one of two types of core relationships existing between Power grid device models in the CIM model, and specifically, the basic hierarchical relationship refers to a hierarchical relationship between various device models, such as a main Control Area (Host Control Area), a Sub Control Area (Sub Control Area), a station (Substation), a Voltage Level Area (Voltage Level), a Bay (Bay), a Transformer (Power Transformer), a Transformer Winding (Transformer Winding), a bus (Busbar Section), a Breaker (Breaker), and a Disconnector (Disconnector), that is, an upper device model to which the device model belongs and a lower device model included in the device model can be found through the basic hierarchical relationship. In this embodiment, the upper layer device model (i.e. the second device model) closest to the first device model and having the mapping relationship established is automatically found.
And the second display module 203 is configured to display, according to the established mapping relationship, a third device model in the second grid service system, where the mapping relationship is established with the second device model.
In this embodiment, the third device model and the second device model are two device models that have already established a mapping relationship in the first power grid service system and the second power grid service system, and the manner of establishing the mapping relationship may include: and automatically establishing a mapping relation according to the strong and weak mapping rules, and confirming the establishment of the mapping relation through manual checking.
And the third display module 204 is configured to display all lower-layer device models of the third device model in the second power grid service system according to the preset basic hierarchical relationship, so that the employee can select a device model in the second power grid service system, which is matched with the first device model, and establish a corresponding mapping relationship.
In this embodiment, in the second grid service system, the grid device model that establishes the mapping relationship with the first device model necessarily displays all the lower layer device models of the third device model in all the lower layer device models of the third device model, so that the checking range of the employee can be quickly narrowed, the matching speed of the employee can be increased, and the efficiency of manually determining the mapping relationship can be improved.
The third display module 204 is further configured to display all the device models in the same layer as the first device model in all the lower layer device models of the third device model according to the preset basic hierarchical relationship.
In this embodiment, it is shown that all the device models in the same level as the first device model in all the lower layer device models of the third device model can further narrow the checking range of the employee, accelerate the matching speed of the employee, and improve the efficiency of manually determining the mapping relationship.
Referring to fig. 4, the apparatus may further include: a fourth display module 205 and a labeling module 206.
The fourth display module 205 is configured to display, according to a topological connection relationship, an equipment model electrically connected to the first equipment model and an equipment model electrically connected to each equipment model in all lower-layer equipment models of the third equipment model, so that an employee selects an equipment model matched with the first equipment model, and establishes a corresponding mapping relationship, where the topological connection relationship is a relationship between equipment models in the same power grid service system that are directly electrically connected.
In this embodiment, the topological connection relationship means that each conductive device (connecting Equipment) indicates whether the devices are connected together through a connection Node (connection Node) on a Terminal (Terminal), that is, a device model connected to the device model can be found through the Terminal and the connection Node of the device model. The topological connection relation is the other one of the two types of core relations existing between the power grid equipment models in the CIM model.
In practical application, the staff checks the electric connection equipment model information of the equipment model according to the requirement, so that the matching selection process can be further accelerated, and the matching result can be more accurate and reliable.
And the marking module 206 is configured to mark the displayed device model in different types of display manners. For example: identifying the mapping state of the equipment model by different colors, such as identifying the equipment model with established and confirmed mapping relation by green, identifying the equipment model with automatically established but unconfirmed mapping relation by yellow, identifying the equipment model without established mapping relation by red, and the like; and when a certain equipment model is selected, displaying the equipment model and the equipment model corresponding to the mapping relation in bold.
It should be noted that, in practical applications, different display areas may be used to display the device model information displayed by the auxiliary mapping apparatus.
Referring to fig. 5, the power grid equipment information retrieved according to the preset retrieval condition may be displayed in the display area a, and is provided for the employee to select and determine, that is, the employee needs to establish the power grid equipment corresponding to the two equipment models in the first power grid service system and the second power grid service system, and may select in the display area a.
The display area B1 and the display area B2 are both configured to display information of the device models in the first grid service system, where the display area B1 is configured to display the first device model, the second device model, and information of each device model on a hierarchical relationship path of the two device models, and the display area B2 is configured to display the device model (determined according to the topological connection relationship) electrically connected to the device model selected in the display area B1.
The display area C1 and the display area C2 are both used to display information of the device models in the second grid service system, where the display area C1 is used to display the third device model and information of all lower layer device models of the third device model, and the display area C2 is used to display the device model (determined according to the topological connection relationship) electrically connected to the device model selected in the display area C1.
In practical applications, the search module 201 is connected to the display area a, the first display module 202 is connected to the display area B1, the second display module 203 and the third display module 204 are both connected to the display area C1, and the third display module 204 and the fourth display module 205 are connected to the display area B2 and the display area C2, respectively. Meanwhile, in the display area, different colors can be adopted to identify the mapping state of the equipment model, such as an equipment model which uses green to identify the established and confirmed mapping relation, an equipment model which uses yellow to identify the automatically established but unconfirmed mapping relation, an equipment model which uses red to identify the unconfirmed mapping relation, and the like; and when a certain equipment model is selected, displaying the equipment model and the equipment model corresponding to the mapping relation in bold. In addition, when the device mapping relation is established manually, a shortcut key or a right-click menu function and the like can be adopted to facilitate the operation of staff.
According to the embodiment of the invention, a first equipment model of a mapping relation to be established in a first power grid service system is retrieved from two selected power grid service systems according to a preset retrieval condition; then, according to a preset basic hierarchical relationship, displaying a second equipment model of which the mapping relationship is established in the first power grid service system, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model; then, according to the established mapping relation, a third equipment model which is in the second power grid service system and establishes the mapping relation with the second equipment model is displayed; and finally, displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that the staff can select the equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship. Therefore, the auxiliary mapping device can quickly narrow the staff checking range to all lower-layer equipment models of the third equipment model, so that the manual matching speed is increased, and the efficiency of manually determining the mapping relation is improved.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
It should be noted that: when the power grid public information model auxiliary mapping device provided in the above embodiment implements the power grid public information model auxiliary mapping method, only the division of the above function modules is used for illustration, and in practical applications, the function distribution may be completed by different function modules according to needs, that is, the internal structure of the device is divided into different function modules, so as to complete all or part of the functions described above. In addition, the power grid public information model auxiliary mapping device provided by the above embodiment and the power grid public information model auxiliary mapping method embodiment belong to the same concept, and specific implementation processes thereof are detailed in the method embodiment and are not described herein again.
It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (6)
1. A power grid public information model auxiliary mapping method is characterized by comprising the following steps:
searching a first equipment model to be mapped in the first power grid service system according to a preset searching condition in the two selected power grid service systems;
displaying a second equipment model of which the mapping relation is established in the first power grid service system according to a preset basic hierarchical relation, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model;
displaying a third equipment model which is in the second power grid service system and establishes a mapping relation with the second equipment model according to the established mapping relation;
displaying all lower-layer equipment models of the third equipment model in a second power grid service system according to a preset basic hierarchical relationship so that an employee can select an equipment model matched with the first equipment model in the second power grid service system, and establishing a corresponding mapping relationship;
displaying an equipment model electrically connected with the first equipment model and an equipment model electrically connected with each equipment model in all lower-layer equipment models of the third equipment model according to a topological connection relation, so that employees can select the equipment model matched with the first equipment model and establish a corresponding mapping relation, wherein the topological connection relation is a direct electrical connection relation between the equipment models in the same power grid service system;
displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship, wherein the lower-layer equipment models comprise:
and displaying all the equipment models which are in the same level with the first equipment model in all the lower-layer equipment models of the third equipment model according to a preset basic hierarchical relationship.
2. The method according to claim 1, wherein the preset search condition comprises: the device type, the device name, the business system to which the device belongs, and whether the mapping relationship is established.
3. The method of claim 1, further comprising:
and marking the displayed equipment model by adopting different types of display modes.
4. An auxiliary mapping device for a public information model of a power grid, the device comprising:
the retrieval module is used for retrieving a first equipment model of a mapping relation to be established in the first power grid service system in the two selected power grid service systems according to a preset retrieval condition;
the first display module is used for displaying a second equipment model of which the mapping relation is established in the first power grid service system according to a preset basic hierarchical relation, wherein the second equipment model is an upper-layer equipment model closest to the first equipment model;
the second display module is used for displaying a third equipment model which is in the second power grid service system and is in the mapping relation with the second equipment model according to the established mapping relation;
the third display module is used for displaying all lower-layer equipment models of the third equipment model in the second power grid service system according to a preset basic hierarchical relationship so that employees can select the equipment model matched with the first equipment model in the second power grid service system and establish a corresponding mapping relationship;
the fourth display module is used for displaying an equipment model electrically connected with the first equipment model and an equipment model electrically connected with each equipment model in all lower-layer equipment models of the third equipment model according to a topological connection relation, so that an employee can select the equipment model matched with the first equipment model and establish a corresponding mapping relation, wherein the topological connection relation is a direct electrical connection relation between the equipment models in the same power grid service system;
the third display module is further configured to display all device models, which are in the same level as the first device model, in all lower-layer device models of the third device model according to a preset basic hierarchical relationship.
5. The apparatus of claim 4, wherein the preset search condition comprises: the device type, the device name, the business system to which the device belongs, and whether the mapping relationship is established.
6. The apparatus of claim 4, further comprising:
and the marking module is used for marking the displayed equipment model by adopting different types of display modes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610246133.6A CN106776670B (en) | 2016-04-20 | 2016-04-20 | Power grid public information model auxiliary mapping method and device |
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