Disclosure of Invention
The invention aims to at least solve one of the technical problems in the prior art and provides a method and a device for automatically identifying station-to-station relationship change.
One aspect of the present invention provides a method for automatically identifying a station area subscriber identity module relationship, where the method includes:
respectively establishing a broadband carrier communication network and a narrowband carrier/micropower wireless communication network in the station area;
acquiring real-time electric energy meter user information of the distribution area according to the distribution area automatic identification function of the broadband carrier communication network;
acquiring user phase information of an electric energy meter communicated with the narrow-band carrier/micropower wireless communication network from the distribution area according to the meter searching function of the narrow-band carrier/micropower wireless communication network;
and identifying abnormal user information of the electric energy meter to obtain the user variation relationship of the distribution area according to the obtained real-time user information of the electric energy meter of the distribution area and the obtained phase information of the electric energy meter communicated by the distribution area and the narrow-band carrier/micropower wireless communication network.
Optionally, the obtaining, according to the obtained real-time electric energy meter user information of the distribution room and the obtained electric energy meter user phase information of the distribution room communicated with the narrowband carrier/micropower wireless communication network, abnormal electric energy meter user information is identified, and a user variation relationship of the distribution room is obtained, including:
and comparing the acquired real-time electric energy meter information and the electric energy meter user phase information with archive information respectively, and identifying abnormal electric energy meter user information.
Optionally, the comparing the obtained real-time electric energy meter information with the station area archive information to identify abnormal user information of the electric energy meter includes:
and comparing the acquired real-time electric energy meter information with the station area archive information, and identifying abnormal electric energy meter user information if at least one of cross-station electric energy meter information, newly added electric energy meter user information, deleted electric energy meter user information and wrong electric energy meter user information appears.
Optionally, the obtaining the user information of the real-time electric energy meter of the distribution room according to the distribution room automatic identification function of the broadband carrier communication network includes:
starting a parameter self-maintenance function of the electric energy meter according to a first preset protocol of the broadband carrier communication network, and sending a station area user variation relation identification instruction through a second preset protocol;
and acquiring the real-time user information of the electric energy meter of the transformer area according to the transmitted transformer area user change relation identification instruction.
Optionally, the obtaining, according to the meter searching function of the narrowband carrier/micropower wireless communication network, user phase information of an electric energy meter, where the station area and the narrowband carrier/micropower wireless communication network obtain communication, includes:
starting a meter reading function according to the first preset protocol of the narrow-band carrier/micropower wireless communication network, and sending a meter reading phase information instruction through the second preset protocol;
and acquiring the electric energy meter user phase information communicated with the narrow-band carrier/micropower wireless communication network by the distribution room according to the transmitted meter reading phase information instruction.
Optionally, the method further includes:
acquiring electric energy meter user phase information communicated with the peripheral station area of the station area and the narrow-band carrier/micropower wireless communication network according to the table searching function of the peripheral station area of the narrow-band carrier/micropower wireless communication network;
and identifying the user phase information of the electric energy meter, which is obtained by the communication between the peripheral area of the area and the narrow-band carrier/micropower wireless communication network, as an abnormal electric energy meter, and feeding back the abnormal electric energy meter to the narrow-band carrier/micropower wireless communication network.
Optionally, the obtaining user phase information of the electric energy meter, where the station area and the narrowband carrier/micropower wireless communication network obtain communication, includes:
and acquiring at least one of the phase, the time, the voltage, the current and the power of each electric energy meter user which is communicated with the narrow-band carrier/micropower wireless communication network in the transformer area.
Optionally, the method further includes:
and analyzing the line loss abnormal distribution area according to the abnormal user information of the electric energy meter.
Optionally, according to the user information of the abnormal electric energy meter, performing analysis on the line loss abnormal distribution room, including:
analyzing according to the offline abnormal transformer area user variation relation identification data;
analyzing according to the real-time electric energy meter user information of the station area acquired on site;
and analyzing according to the offline identification data of the abnormal station area household variation relationship and the real-time user information of the electric energy meter in the station area to obtain a solution corresponding to the abnormal station area household variation relationship.
Another aspect of the present invention provides an apparatus for automatically identifying station-to-station relationship, including: the system comprises a broadband carrier communication network, a narrowband carrier/micropower wireless communication network, an acquisition module, a transformer area subscriber relationship identification module and an electric energy meter;
the acquisition module is used for acquiring the user information of the real-time electric energy meter of the distribution area according to the distribution area automatic identification function of the broadband carrier communication network;
the acquisition module is further configured to acquire user phase information of an electric energy meter communicated with the narrowband carrier/micropower wireless communication network in the station area according to a meter searching function of the narrowband carrier/micropower wireless communication network;
and the station area user variation relation identification module is used for identifying abnormal electric energy meter user information according to the acquired real-time electric energy meter user information of the station area and the acquired electric energy meter user phase information communicated by the station area and the narrow-band carrier/micropower wireless communication network, so as to obtain the station variation relation of the station area.
The invention relates to a method and a device for automatically identifying the station area user variable relationship, wherein the identification method respectively establishes a broadband carrier communication network and a narrow-band carrier/micropower wireless communication network in a station area; acquiring real-time user information of the electric energy meter of the distribution area according to the distribution area automatic identification function of the broadband carrier communication network; acquiring user phase information of an electric energy meter communicated with a station area and a narrow-band carrier/micropower wireless communication network according to the meter searching function of the narrow-band carrier/micropower wireless communication network; and identifying abnormal user information of the electric energy meter to obtain the user variation relationship of the transformer district according to the obtained real-time user information of the electric energy meter of the transformer district and the obtained phase information of the electric energy meter communicated by the transformer district and the narrow-band carrier/micropower wireless communication network. The identification method improves the maintenance efficiency of the traditional operation and maintenance personnel, and makes beneficial exploration for the identification of new user-variant relationships; the identification efficiency is effectively improved, and the personnel investment and time cost are reduced; the identification method of the invention can more easily maintain the indoor transformer relationship in the station area in the later period, promotes the development of the indoor transformer relationship identification technology and provides a new solution for the identification technology.
Detailed Description
In order to make the technical solutions of the present invention better understood, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1, an aspect of the present invention provides an automatic station-to-station relationship identification method S100, where the identification method S100 includes:
and S110, respectively establishing a broadband carrier communication network and a narrowband carrier/micropower wireless communication network in the distribution room.
Specifically, based on a broadband carrier communication network and a narrowband carrier/micropower wireless communication network technology, user variable relationship information is collected, topology is generated, and user variable relationship automatic identification software is researched, developed and designed. And the user variable relation software is operated to realize the self-adaptive identification of the user variable relation of the broadband carrier communication and the narrowband carrier/micropower wireless communication technology, thereby facilitating troubleshooting and maintenance work of field equipment. In this embodiment, the platen is a low pressure platen.
And S120, acquiring the real-time electric energy meter user information of the distribution area according to the distribution area automatic identification function of the broadband carrier communication network.
Illustratively, the obtaining of the user information of the real-time electric energy meter of the station area according to the automatic station area identification function of the broadband carrier communication network includes:
and starting the parameter self-maintenance function of the electric energy meter according to a first preset protocol of the broadband carrier communication network, and sending a station area user variation relation identification instruction through a second preset protocol.
Specifically, as shown in fig. 2, in this embodiment, a broadband carrier communication network technology is adopted, and the operation and maintenance device issues a starting station area identification function, that is, a power meter parameter self-maintenance function, to the concentrator of the acquisition device through a 698 protocol or a 376 protocol. After receiving the command, the concentrator of the acquisition equipment sends an identification command of the station-to-station relationship change to the CCO in the acquisition equipment through an 376.2 protocol.
And acquiring the real-time user information of the electric energy meter of the transformer area according to the transmitted transformer area user change relation identification instruction.
Specifically, as shown in fig. 2, the CCO in the collection device collects the user information of the electric energy meter through the HPLC protocol. In this embodiment, the CCO in the collection device collects the user information of the electric energy meter through the 376.2 protocol, that is, collects all the user information of the electric energy meter in the station area. And then reporting the user information of the electric energy collection meter to the concentrator, reporting the station area identification result to the concentrator, and finally reporting to the device to generate an identification report.
By adopting a broadband carrier communication network technology, relying on a broadband carrier module scheme and a new protocol for identifying 'district characteristic information', the 'district automatic identification' technology in an HPLC technology can be adopted, the real attribution information of all users in a work district is solved, the consistency of district archives and electric energy meters in actual network topology can be ensured, the information, the newly added, deleted and wrong user information of the electric energy meters in the cross-district can be checked out, and the information and the archive information of a marketing and acquisition system are compared one by one to obtain an accurate district user variable relationship for reference of field operation and maintenance personnel.
S130, acquiring user phase information of the electric energy meter communicated by the station area and the narrow-band carrier/micropower wireless communication network according to the meter searching function of the narrow-band carrier/micropower wireless communication network.
Illustratively, the obtaining user phase information of the electric energy meter, which is obtained by the station area and communicated with the narrowband carrier/micropower wireless communication network according to the meter searching function of the narrowband carrier/micropower wireless communication network, includes:
and starting a meter reading function according to the first preset protocol of the narrow-band carrier/micropower wireless communication network, and sending a meter reading phase information instruction through the second preset protocol.
Specifically, as shown in fig. 3, a meter searching function of a narrowband carrier/micropower wireless network communication technology is adopted to obtain meter user phase identification information that can be communicated with a routing module in a station area. The operation and maintenance device issues the acquisition meter reading function to the concentrator of the acquisition equipment through a 698 or 376 protocol. After receiving the command, the concentrator of the acquisition equipment sends a meter reading phase information command to the CCO of the acquisition equipment through an 376.2 protocol.
And acquiring the electric energy meter user phase identification information communicated by the distribution room and the narrow-band carrier/micropower wireless communication network according to the transmitted meter reading phase information instruction.
Specifically, as shown in fig. 2, after the CCO of the collection device receives the meter reading phase information command sent by the concentrator, the CCO of the collection device sends a zero-crossing NTB collection indication message to the electric meter through the 376.2 protocol. After the CCO of the acquisition equipment receives the notification message of the zero crossing NTB of the electric energy meter, the CCO of the acquisition equipment reports the phase identification information to the concentrator, and finally the concentrator reports the phase identification result to the device.
It should be noted that, in this embodiment, a table searching function of a narrowband carrier network communication technology may be adopted, and a table searching function of a micropower wireless network communication technology may also be adopted, which is not specifically limited in this embodiment.
S140, according to the obtained real-time electric energy meter user information of the transformer area and the obtained electric energy meter user phase information of the transformer area communicated with the narrow-band carrier/micro-power wireless communication network, identifying abnormal electric energy meter user information and obtaining the user variation relation of the transformer area.
Illustratively, the identifying abnormal user information of the electric energy meter according to the obtained user information of the real-time electric energy meter of the station area and the obtained user phase information of the electric energy meter communicated between the station area and the narrow-band carrier/micropower wireless communication network to obtain the user variation relationship of the station area comprises:
and comparing the acquired real-time electric energy meter information and the electric energy meter user phase information with archive information respectively, and identifying abnormal electric energy meter user information.
Specifically, in this embodiment, the station area subscriber relationship identification module compares the acquired real-time electric energy meter information and the acquired electric energy meter subscriber phase information with the archive information one by one, identifies abnormal electric energy meter subscriber information, obtains an accurate station area subscriber relationship result, and reports the obtained accurate station area subscriber relationship result to the operation and maintenance device.
Illustratively, the comparing the obtained real-time electric energy meter information with the station area archive information to identify abnormal electric energy meter user information includes:
and comparing the acquired real-time electric energy meter information with the station area archive information, and identifying abnormal electric energy meter user information if at least one of cross-station electric energy meter information, newly added electric energy meter user information, deleted electric energy meter user information and wrong electric energy meter user information appears.
The method for automatically identifying the transformer area can solve the real attribution information of all electric energy meter users in the working area, can ensure that the file of the transformer area is consistent with the electric energy meter in the actual network topology, can check the information of the electric energy meter across the transformer area, the newly added, deleted and wrong user information, and compares the information with the file information of a marketing and acquisition system one by one to obtain the accurate transformer relation of the transformer area for the reference of field operation and maintenance personnel.
Illustratively, the method further comprises:
and acquiring the user phase information of the electric energy meter communicated by the peripheral station area of the station area and the narrow-band carrier/micropower wireless communication network according to the table searching function of the peripheral station area of the narrow-band carrier/micropower wireless communication network.
And identifying the user phase information of the electric energy meter, which is obtained by the communication between the peripheral area of the area and the narrow-band carrier/micropower wireless communication network, as an abnormal electric energy meter, and feeding back the abnormal electric energy meter to the narrow-band carrier/micropower wireless communication network.
Specifically, as shown in fig. 3, in consideration of a cross-cell meter reading situation caused by cell crosstalk, a peripheral cell searching function of a narrowband carrier/micropower wireless communication technology is adopted to obtain electric meter user phase identification information that can be communicated with a routing module in the peripheral cell. The operation and maintenance device issues the acquisition meter reading function to the concentrator of the acquisition equipment through a 698 or 376 protocol. After receiving the command, the concentrator of the acquisition equipment sends a meter reading phase information command to the CCO of the acquisition equipment through an 376.2 protocol. After the CCO of the acquisition equipment receives the meter reading phase information command sent by the concentrator, the CCO of the acquisition equipment sends a zero-crossing NTB acquisition indication message to the electric energy meters of the peripheral station area through an 376.2 protocol. After receiving the report of the zero crossing NTB notification message of the electric energy meters in the peripheral transformer area, the CCO of the acquisition equipment marks the phase identification information as the abnormal electric energy meter and reports the abnormal electric energy meter to the concentrator, and finally the concentrator reports the phase identification result of the peripheral transformer area to the device.
Illustratively, the obtaining of the user phase information of the electric energy meter in the communication between the cell and the narrowband carrier/micropower wireless communication network comprises:
and acquiring at least one of the phase, the time, the voltage, the current and the power of each electric energy meter user which is communicated with the narrow-band carrier/micropower wireless communication network in the transformer area.
Through the meter searching function of the peripheral station area of the narrow-band carrier/micropower wireless communication network, the phase information of the electric energy meter user, which is obtained by the peripheral station area of the station area and the narrow-band carrier/micropower wireless communication network, is communicated, so that the problem of meter reading across stations can be comprehensively researched and judged, the condition of meter reading across stations caused by crosstalk of the station areas is avoided, and the accurate relationship of the station change among the stations is further ensured.
It should be noted that the station area household variable relation identification function can completely read the data source file of the concentrator and completely search the off-hook electricity meter. The analysis result can be compared automatically, abnormal ammeter information is output, and operation and maintenance personnel are assisted in positioning and solving problems. Meanwhile, the invention also supports the integration of all relevant data of the marketing system and the utilization system into a data center station, and can be used as a data source for functions of station area household variable relation recognition, online diagnosis and analysis, line loss, electricity stealing prevention and the like.
Illustratively, the method further comprises:
according to the user information of the abnormal electric energy meter, analyzing the line loss abnormal distribution area, and specifically comprising the following steps:
firstly, analyzing according to offline abnormal transformer area user variation relation identification data.
And secondly, analyzing according to the real-time electric energy meter user information of the distribution room acquired on site.
And thirdly, according to the offline identification data of the abnormal station area household variation relationship and the real-time user information analysis of the electric energy meter in the station area, providing a corresponding solution of the abnormal station area household variation relationship.
As shown in fig. 4, the overall process of the line loss abnormal distribution room analysis system design scheme is mainly divided into an abnormal distribution room analysis process, a field analysis process, and an abnormal cause analysis result display. The offline analysis system for the abnormal line loss distribution area is also based on data identified by the station area user variation relationship.
Specifically, as shown in fig. 4, offline data of the transformer area is analyzed, the master station cloud analyzes basic information of the abnormal transformer area to form an abnormal transformer area error information report, and then the abnormal transformer area is classified according to the abnormal transformer area error information report, which may be mainly classified into a collection abnormal class, a data abnormal class, and other abnormal classes. Acquiring the abnormal class comprises that the acquired information is inconsistent with the archive information; the data exception class comprises data exceptions such as history or events; other classes of anomalies include normal acquisition and data but still anomalous line loss rates.
As shown in fig. 4, the on-site customer change information collection is analyzed, the customer variable data software analysis is checked according to the electric meter information collected by the concentrator, and the customer variable data software analysis is checked according to the abnormal district error information report. And analyzing the abnormal reasons mainly including acquisition abnormity, data abnormity and other abnormity according to the analysis of the user-checking data software. The abnormal collection comprises a plurality of times of checking and copying, and the user variable relation, the electric meter and the communication state are confirmed. The data exception comprises a plurality of times of checking and copying, and the communication state of the line operation machine is confirmed. Other anomalies include analyzing multidimensional data, confirming equipment and line status. And finally, generating a detection report according to the analysis of the abnormal reasons, and providing a feasibility solution for the abnormal situation. And analyzing the on-site acquisition abnormal reasons according to the concentrator ammeter information, and providing a broadband carrier solution or a narrowband carrier and wireless solution.
The identification method improves the maintenance efficiency of the traditional operation and maintenance personnel, and makes beneficial exploration for the identification of new user-variant relationships; the identification efficiency is effectively improved, and the personnel investment and time cost are reduced; the identification method of the invention can more easily maintain the indoor transformer relationship in the station area in the later period, promotes the development of the indoor transformer relationship identification technology and provides a new solution for the identification technology.
As shown in fig. 5, another aspect of the present invention provides an apparatus 100 for automatically identifying station-to-station relationship, where the apparatus 100 includes: a broadband carrier communication network 110, a narrowband carrier/micropower wireless communication network 120, an acquisition module 130, a station area subscriber change relationship identification module 140 and an electric energy meter 150;
the obtaining module 130 is configured to obtain the user information of the real-time electric energy meter of the distribution room according to the distribution room automatic identification function of the broadband carrier communication network 110.
The obtaining module 130 is further configured to obtain user phase information of an electric energy meter, where the station area and the narrowband carrier/micropower wireless communication network 120 obtain communication, according to a meter searching function of the narrowband carrier/micropower wireless communication network 120.
Specifically, as shown in fig. 2, in this embodiment, a broadband carrier communication network technology is adopted, and the operation and maintenance device issues a starting station area identification function, that is, a power meter parameter self-maintenance function, to the concentrator of the acquisition device through a 698 protocol or a 376 protocol. After receiving the command, the concentrator of the acquisition equipment sends an identification command of the station-to-station relationship change to the CCO in the acquisition equipment through an 376.2 protocol.
Specifically, as shown in fig. 2, the CCO in the collection device collects the user information of the electric energy meter through the HPLC protocol. In this embodiment, the CCO in the obtaining module 130 collects the user information of the electric energy meter through the 376.2 protocol, that is, collects all the user information of the electric energy meter in the station area. And then reporting the user information of the electric energy collection meter to the concentrator, reporting the station area identification result to the concentrator, and finally reporting to the device to generate an identification report.
Specifically, as shown in fig. 3, a meter searching function of a narrowband carrier/micropower wireless network communication technology is adopted to obtain meter user phase identification information that can be communicated with a routing module in a station area. The operation and maintenance device issues the acquisition meter reading function to the concentrator of the acquisition equipment through a 698 or 376 protocol. After receiving the command, the concentrator of the acquisition equipment sends a meter reading phase information command to the CCO of the acquisition equipment through an 376.2 protocol.
Specifically, as shown in fig. 2, after the CCO of the acquisition device receives the meter reading phase information command sent by the concentrator, the CCO of the acquisition module 130 sends a zero-crossing NTB acquisition indication message to the electric meter through the 376.2 protocol. After the CCO of the acquisition equipment receives the notification message of the zero crossing NTB of the electric energy meter, the CCO of the acquisition equipment reports the phase identification information to the concentrator, and finally the concentrator reports the phase identification result to the device.
And the station area user variation relationship identification module 140 is configured to identify abnormal user information of the electric energy meter according to the acquired real-time user information of the electric energy meter of the station area and the acquired phase information of the electric energy meter communicated between the station area and the narrowband carrier/micropower wireless communication network 120, so as to obtain a user variation relationship of the station area.
Specifically, in this embodiment, the station-to-station user transformation relationship identifying module 140 compares the acquired real-time electric energy meter information and the acquired electric energy meter user phase information with the file information one by one, identifies abnormal electric energy meter user information, obtains an accurate station-to-station user transformation relationship result, and reports the obtained accurate station-to-station user transformation relationship result to the operation and maintenance device.
The station area subscriber change relationship identification module 140 compares the acquired real-time electric energy meter information with the station area archive information, and marks abnormal electric energy meter subscriber information if at least one of cross-station area electric energy meter information, newly added electric energy meter subscriber information, deleted electric energy meter subscriber information and wrong electric energy meter subscriber information appears.
The automatic identification device for the station area user-to-user relationship improves the maintenance efficiency of the traditional operation and maintenance personnel and makes beneficial exploration for the identification of a new user-to-user relationship; the identification efficiency is effectively improved, and the personnel investment and time cost are reduced; the method can more easily maintain the indoor transformer relationship in the station area in the later period, promotes the development of the indoor transformer relationship identification technology, and provides a new solution for the identification technology.
It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.