KR102518774B1 - Apparatus and method for high available facility control managing electric power distribution system - Google Patents

Abstract

The present invention relates to a front-end processing device for monitoring and controlling a distribution system, comprising: a front-end processing device cluster that performs communication-linked work with a plurality of distribution intelligent terminal devices installed and operated in a distribution system and a distribution system; And a distribution intelligence terminal device management function that is connected to the front end processing device cluster and performs addition, deletion, and monitoring of distribution intelligent terminal devices, monitoring and controlling the performance status of the front end processing device cluster, and when a failure occurs in the front end processing device It includes a front-end processing device HMI (Human Machine Interface) unit that performs a front-end processing device cluster management function that restarts the front-end processing device in which failure occurs according to the number of times set by the user.

Description

Shear processing device and method for monitoring and controlling distribution system {APPARATUS AND METHOD FOR HIGH AVAILABLE FACILITY CONTROL MANAGING ELECTRIC POWER DISTRIBUTION SYSTEM}

The present invention relates to a front end processing device and method for monitoring and controlling a distribution system, and more particularly, to connect a large number of multi-type distribution intelligent terminal units (FRTUs) without interruption of a front end processing unit (FEP) in a distribution system operating system. It relates to a front end processing device and method for monitoring and controlling a distribution system.

Recently, research on the development of a next-generation distribution management system (ADMS: Advanced Distribution Management System) is being conducted to improve the efficiency of distribution system operation.

This next-generation distribution intelligence system (ADMS) uses a large amount of IoT (Internet of Things) sensors and distribution intelligence terminals (RFTU: Feeder Remote Terminal Unit, distribution line ( 22.9kV) Aims for flexible linkage of intelligent devices) that measure, monitor, and control data acquired from voltage and current sensors of switchgear in real time to detect failures and transmit power quality information necessary for distribution system operation to the central control unit. .

1 is an exemplary view of a distribution system operating system shown to explain a method of linking a plurality of distribution intelligent terminal units (RFTU) with a distribution intelligent system (TDAS) through a conventional front end processing unit (FEP). As shown, the existing distribution automation system (TDAS: Total Distribution Automation System) for distribution system operation is a Front End Processor (FEP) (ie, FEP) for communication linkage with distribution intelligence terminal units (RFTUs). shear processing unit).

The existing front end processing unit (FEP) acquires distribution system information through communication with about 300 to 400 similar types (ie, multiple types) of existing distribution intelligence terminal units (FRTUs).

However, when the existing front end processing unit (FEP) temporarily stops operation for updating information when communicating with a new distribution intelligence terminal unit (FRTU), and a failure occurs in the existing front end processing unit (FEP), the corresponding front end processing unit (FEP) There is a problem in that the processing unit (FEP) becomes unable to communicate with the distribution intelligence terminal units (FRTUs) in charge.

In addition, since the next-generation distribution intelligence system (ADMS) aims at distribution integrated operation at the headquarters (center) level in the distribution system operation at the business site, it can handle 300 to 400 distribution intelligence terminal units (FRTU). There is a problem that more than 7,000 distribution intelligence terminal units (FRTU) cannot be processed by the business unit front end processing unit (FEP).

Therefore, when a failure occurs in the front end processing device (FEP), a stable front end processing device (FEP) is required because the ripple effect of the failure of the headquarters (center) unit operation is much greater than that of the existing business unit operation.

The background art of the present invention is disclosed in Korean Patent Publication No. 10-2017-0044153 (published on April 24, 2017, power distribution control system).

According to one aspect of the present invention, the present invention was created to solve the above problems, and in a distribution system operating system, a large amount of multi-type distribution intelligent terminal units (FRTUs) can be connected without stopping the front end processing unit (FEP). Its purpose is to provide a front-end treatment device and method for monitoring and controlling the distribution system.

A front-end processing device for monitoring and controlling a distribution system according to an aspect of the present invention includes a front-end processing device cluster that performs a communication-linked operation with a plurality of distribution intelligent terminal devices installed and operated in a distribution system and a distribution system; And a distribution intelligence terminal device management function that is connected to the front end processing device cluster and performs addition, deletion, and monitoring of distribution intelligent terminal devices, monitoring and controlling the performance status of the front end processing device cluster, and when a failure occurs in the front end processing device It is characterized in that it includes; a shear processing device HMI (Human Machine Interface) unit that performs a front processing device cluster management function that restarts the shear processing device in which a failure occurs according to the number of times set by the user.

In the present invention, the front-end processing device cluster transmits values obtained from distribution intelligence terminal devices at the site of the distribution system to the distribution intelligence system, and transmits a control signal requested by the distribution intelligence system to the distribution intelligence terminal device It is characterized by doing work.

In the present invention, the front-end processing device cluster clusters a plurality of front-end processing devices, and prevents a situation in which the connection of the distribution intelligence terminal device in the system is interrupted due to the occurrence of a failure of the plurality of front-end processing devices, In addition, in order to process a large amount of system failure signals that can temporarily occur, it is characterized in that work is shared between a plurality of front-end processing devices through clustering that connects a plurality of front-end processing devices communicatively.

In the present invention, the front-end processing device includes: a front-end processing device management unit that performs internal function initialization and collects and shares the state of each unit front-end processing device when the front-end processing device is started; And a distribution intelligence system linkage interface unit that performs linkage with external systems that want to communicate with the distribution intelligent terminal device, receives a control command for the intelligent terminal device from the external system, and returns a processing result. do.

In the present invention, the shear processing device manages the configuration information of the unit shear processing device constituting the shear processing device cluster, and performs the function of electing a master shear processing device and re-election when its failure occurs, Clustering that manages the allocation and distribution information of distribution intelligence terminals among front-end processing devices, and redistributes distribution intelligence terminals distributed to the front-end processing device to sound front-end processing devices when a failure occurs in a specific front-end processing device Characterized in that it further includes a; management unit.

In the present invention, the front-end processing device includes a communication group management unit that performs management tasks such as creation, deletion, and modification of communication groups, and manages information of distribution intelligence terminal devices in each communication group; A distribution intelligence terminal device processing unit that performs data point information and control functions of the distribution intelligence terminal device; and a communication management unit supporting a plurality of communication protocols for communication connection with the distribution intelligence terminal device.

In the present invention, the clustering management unit causes a specific shear processing device among the shear processing devices in the shear processing device cluster to play the role of a master, and the other shear processing devices to perform a role of slaves, It is characterized by distributing and processing the control request of the distribution intelligence system and measurement data acquisition work of the distribution intelligence terminal devices.

In the present invention, the master front-end processing device monitors the status of the slave front-end processing devices in real time, and when the status of any slave front-end processing device is determined to be a failure, the communication link work is normally performed even in the event of a failure In order to do this, it is characterized in that distribution intelligent terminal devices in charge of the corresponding front-end processing device determined to be faulty are assigned to normal slave front-end processing devices in the front-end processing device cluster.

In the present invention, the master front end processing device compares the workload of the slave front end processing device in the cluster with the capacity of other slave front end processing devices when a communication connection request with a new distribution intelligent terminal device is generated from the distribution intelligence system. It is characterized by distributing the new distribution intelligence terminal device to the front end processing device with the highest available capacity.

In the present invention, the slave shearing device monitors the state of the master shearing device in real time in order to cope with the case where a failure occurs in the master shearing device, and for this, the master shearing device changes its status to the slave It is periodically transmitted to the shear processing devices, and if the master shear processing device does not transmit a signal indicating its status for a specified period of time, it is determined that a failure has occurred in the existing master shear processing device, and it is the largest of the slave shear processing devices. The shear unit with the high shear ID serves as the new master shear unit, and all slave shear units remove the failed master shear unit from the shear cluster.

A front-end processing method for monitoring and controlling a distribution system according to another aspect of the present invention includes a distribution intelligent system and a clustering management unit in a front-end processing device cluster that performs a communication linkage operation with a plurality of distribution intelligent terminal devices installed and operated in the distribution system. , making a specific shear processing device of a plurality of shear processing devices perform a master role; allowing, by the clustering management unit, the remaining shear processing devices other than the specific shear processing device performing the master role among the plurality of shear processing devices to perform a slave role; and distributing and processing, by the clustering management unit, a control request of the intelligent distribution system and a measurement data acquisition task of the intelligent distribution terminal devices to the master front-end processing device and the slave front-end processing device.

In the present invention, after the step of allowing the specific shearing device to serve as a master; The master front-end processing device monitors the status of the slave front-end processing devices in real time, and if the status of any slave front-end processing device is determined to be a failure, it is determined as a failure in order to ensure that communication-linked work is normally performed even in the event of a failure. It is characterized in that distribution intelligent terminal devices in charge of the corresponding front-end processing device are allocated to normal slave front-end processing devices in the front-end processing device cluster.

In the present invention, after the step of having the specific front end processing device perform the role of a master, the master front end processing device, when a communication connection request with a new distribution intelligence terminal device occurs from the distribution intelligence system, cluster It is characterized in that the new distribution intelligent terminal device is allocated to the front end processing device with the highest available capacity by comparing the workload of the slave shear processing device in the interior with the capacity of other slave shear processing devices.

In the present invention, after the step of allowing the rest of the shear processing devices to serve as slaves, the slave shear processing device, in order to cope with the case where a failure occurs in the master shear processing device, The status of the master shear processing unit is monitored in real time, and for this purpose, the master shear processing unit periodically transmits its status to the slave shear processing units. If not transmitted, it is determined that a failure occurred in the existing master shearing device, and the shearing device having the highest shearing device ID among the slave shearing devices is characterized in that it serves as a new master shearing device. .

In the present invention, when it is determined that the existing master shearing device has a failure, all slave shearing devices remove the failed master shearing device from the shearing device cluster.

According to one aspect of the present invention, the present invention enables a large amount of multi-type distribution intelligent terminal units (FRTUs) to be connected without interruption of a front end processing unit (FEP) in a distribution system operating system.

1 is an exemplary view of a distribution system operating system shown to explain a method of linking a plurality of distribution intelligence terminal units (RFTUs) with a distribution intelligence system (TDAS) through a conventional front end processing unit (FEP).
2 is an exemplary diagram showing a schematic configuration of a pre-processing device for monitoring and controlling a distribution system according to an embodiment of the present invention.
3 is a flowchart for explaining an operating method of a front end processing device for monitoring and controlling a distribution system according to an embodiment of the present invention.
4 is an exemplary view showing a message of a control command transmitted from a next-generation intelligent distribution system (ADMS) related to this embodiment by way of example.
5 is an exemplary diagram shown to explain the multi-protocol communication linking method of the front end processing device in FIG. 2;
FIG. 6 is an exemplary diagram showing I/O interface standards defined to support a new communication protocol in FIG. 5;
FIG. 7 is an exemplary diagram for explaining the operation of the clustering management unit in FIG. 2 in more detail;

Hereinafter, an embodiment of a preprocessing apparatus and method for monitoring and controlling a power distribution system according to the present invention will be described with reference to the accompanying drawings.

In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

The shear processing device (FEP) according to this embodiment connects a large amount of shear processing devices (FEP) in an Active-Active manner to improve reliability, and when a failure occurs in any front processing device (FEP), the Active- There is an effect of enabling the available front processing unit (FEP) among a plurality of front processing units (FEP) connected in an active manner to perform the work of the random front processing unit (FEP) in which a failure has occurred.

For example, in this embodiment, when a large amount of system failure signals (FI) occur in the event of a natural disaster such as a typhoon, the moment the performance of the front end processing device (FEP) reaches its maximum value in an instant (ie, the moment when the processing capacity becomes insufficient) Edo new shear processing equipment (FEP) is introduced in a non-stop state to cope with the situation of insufficient processing capacity.

In addition, this embodiment connects the new FRTU in communication with a plug-and-play method during operation without pausing the front end processing unit (FEP) even when the new FRTU is input. make it possible

In addition, in this embodiment, in order to prevent a situation in which the connection of the FRTU in the system is interrupted due to the occurrence of a failure of the FEP itself, several FEPs are grouped in a cluster form and stopped. enable them to cope with obstacles without

Therefore, the new front end processing unit (FEP) according to this embodiment can process (eg, connect) a large amount of multi-type distribution intelligent terminal units (FRTUs) in a non-stop state of the distribution system operating system compared to the existing front end processing unit (FEP). Therefore, it can also be described as a high availability front end processor (HA FEP).

That is, it should be noted that the shear processing unit (FEP) described in the present embodiment below means a novel shear processing unit (FEP) or a novel high availability shear processing unit (HA FEP).

2 is an exemplary diagram showing a schematic configuration of a pre-processing device for monitoring and controlling a distribution system according to an embodiment of the present invention.

As shown in FIG. 2, the front-end processing device for monitoring and controlling the distribution system according to the present embodiment includes a front-end processing device cluster 300 that directly communicates with the distribution intelligent terminal device 500, and a user It includes a front-end processing device HMI unit 100 that supports to control and monitor the operation of the front-end processing device cluster 300 .

The front end processing device cluster 300 performs a communication linkage work with the distribution intelligence system 400 and the distribution intelligence terminal device 500 installed and operated in the distribution system.

Accordingly, the front-end processing device cluster 300 transmits the values acquired from the distribution intelligence terminal devices 500 at the site of the distribution system to the distribution intelligence system 400, and the control signal requested by the distribution intelligence system 400. to the distribution intelligence terminal device 500.

The shear processing device cluster 300 clusters a plurality (ie, several) of shear processing devices 200, and at this time, each of the plurality of shear processing devices 200 is described as a unit shear processing device 200. The front-end processing device cluster 300 prevents a situation in which the connection of the distribution intelligence terminal device 500 in the system is interrupted due to the occurrence of a failure of the front-end processing device 200, and also temporarily occurs in a large number of systems. In order to process the failure signal, it is configured in the form of sharing work by connecting several unit front end processing devices 200 in communication (ie clustering).

The front end processing device HMI (Human Machine Interface) unit 110 has a distribution intelligent terminal device management function (ie, addition, deletion, and monitoring of distribution intelligent terminal devices) and a front end processing device cluster management function (ie, front end processing device Monitoring and controlling the cluster performance status (e.g., starting and stopping), and performing restart of the failed unit front processing device 200 according to the number of times set by the user when a failure occurs in the shear processing device 200 for each unit) do.

The front-end processing device 200 (or unit front-end processing device) includes a front-end processing device management unit 210, a distribution intelligent system interface unit 220, a clustering management unit 230, a communication group management unit 240, and a distribution intelligent terminal. It includes a device processing unit 250 and a communication management unit 260 .

When the unit front-end processing device 200 is activated, the front-end processing device management unit 210 performs internal function initialization and collects and shares the state of each unit front-end processing device.

The distribution intelligence system linkage interface unit 220 performs linkage with external systems (eg TDAS, ADMS) that want to communicate with the distribution intelligent terminal device, and from the external system (eg TDAS, ADMS) to the intelligent terminal device. Receives control commands and returns processing results.

The clustering management unit 230 manages the configuration information of the unit shear processing units 200 constituting the shear processing unit cluster 300, and selects a master unit shear processing unit 200 and restarts it in case of failure. Performs a selection function, manages allocation and distribution information of distribution intelligent terminal devices between unit front end processing devices 200, and distributes to the unit front end processing device 200 when a failure occurs in a specific unit front end processing device 200 The distributed intelligent terminal devices 500 are redistributed as healthy unit pre-processing devices 200.

The communication group management unit 240 performs management tasks such as creation, deletion, and modification of communication groups, and manages information of distribution intelligence terminal devices in each communication group.

The distribution intelligence terminal device processing unit 250 performs data point information and control functions of the distribution intelligence terminal device.

The communication management unit 260 supports a communication protocol (eg, DNP, Modbus, CoAP) for communication connection with a distribution intelligent terminal device.

Accordingly, the front-end processing device 200 according to this embodiment has (1) a data acquisition function (ie, communicates with various distribution intelligent terminal devices to automatically or manually obtain data (eg, status value, measured value, count value) (2) Control command processing function (i.e., the control command of the distribution intelligent system is transmitted to the distribution intelligent system (e.g., TDAS, ADMS)) The function of transmitting to the intelligent terminal device, providing the result of receiving the response of the intelligent distribution terminal device to the transmitted control command to the intelligent distribution system, acquiring waveform information from the intelligent distribution terminal device at the site and saving it in the form of a file), ( 3) Event processing function (that is, a function that automatically or manually measures all events generated by distribution intelligence terminal devices on site, and transmits events acquired from distribution intelligence terminal devices to distribution intelligence systems (e.g., TDAS, ADMS) ), (4) time synchronization function (i.e. standard time synchronization function with NTP (Network Time Protocol) server periodically, function that periodically transmits time synchronization command to distribution intelligence terminal device in the field), (5) clustering function ( That is, in order to support high availability from SW or H/W failure, a function of distributing and processing communication-linked work with distribution intelligence terminal devices by linking several new front-end processing devices into a cluster, and new front-end processing devices interlocking with a cluster When a failure occurs in a specific new shear processing device, the function to perform communication linked work by moving the corresponding communication linked work to another new front end processing device in the cluster), and (6) a protocol dynamic extension function (i.e., distribution intelligence using a new protocol) When the terminal device is put into the system, the manufacturer of the distribution intelligence terminal device with the function of dynamically extending the protocol to perform communication linkage immediately without redevelopment of a new front end processing device, and the new protocol, provides a communication library according to the defined interface. The front end processing device dynamically loads this communication library and performs a function of connecting communication with a new distribution intelligence terminal device).

3 is a flowchart for explaining an operation method of a front end processing device for monitoring and controlling a distribution system according to an embodiment of the present invention.

Referring to FIG. 3 , when the cluster management function of the pre-processing device is executed according to a user's manual control or a preset automatic control function (S101), the pre-processing device management function is executed (S102). Next, a distribution intelligence system interface function for communication with the distribution intelligence system 400 is executed (S103).

Here, the intelligent distribution system interface unit 220 performs a function of supporting communication linkage between the high availability front end processing device (HA FEP) and the intelligent distribution system 400, and the intelligent distribution system interface unit 220 In order to support connection for each type of distribution intelligence system 400 (eg, TDAS, ADMS), a middleware communication function specialized for each distribution intelligence system 400 is supported.

For example, when linked with Distribution Intelligence System (TDAS), AgWorks middleware and communication functions are supported, and when linked with Next Generation Distribution Intelligence System (ADMS), Json format message queue-based communication functions are provided.

For reference, FIG. 4 is an exemplary view showing a message of a control command (eg, switch control, manual measurement command, scan prohibition command) transmitted from the next-generation intelligent distribution system (ADMS) related to this embodiment. (a) is an example diagram showing control and measurement command message information in Json format, and FIG. 4 (b) is an example diagram showing control and measurement command result message information in Json format.

Then, the communication group management function and the processing function of the distribution intelligence terminal device are executed (S104, S105), and the communication management function of the communication group management unit 240 performing communication linkage with the distribution intelligence terminal devices in the field is executed (S106 ).

Here, the communication group management unit 240 performs distribution intelligence according to the communication protocol (eg DNP, Modbus, CoAP), IP band, and communication medium (eg TCP/IP, TRS, CDMA) of the distribution intelligence terminal device 500. The terminal devices 500 are classified into communication groups and the communication link state is managed.

Next, the clustering management unit 230 that monitors and switches the status of the plurality of unit front-end processing devices 200 executes a clustering management function (S107), thereby forming a cluster of front-end processing devices (S108).

At this time, in order to process data point information and control functions in the form defined for each model of the distribution intelligence terminal devices 500, the distribution intelligence terminal device processing unit 250 is initialized, and direct communication connection with the distribution intelligence terminal device 500 For this purpose, the communication management unit 260 supporting communication protocols (eg, DNP, Modbus, CoAP) supported by each distribution intelligent terminal device is activated.

Here, the front-end processing device management unit 210 initializes the clustering management unit 230 of the unit front-end processing devices 200 constituting the front-end processing device cluster 300, so that each unit front-end processing device 200 takes charge of distribution intelligence. The distribution information of the terminal device 500 and the execution state (eg, CPU/MEM/HDD usage) of each unit front-end processing device 200 are shared. And when a failure situation occurs in any shear processing device, the shear processing device cluster management function of the shear processing device HMI unit 100 proceeds with the restart procedure of the shear processing device according to the number of times preset by the user, If it is not normalized according to the restart procedure, the clustering management units 230 of the unit preprocessing device 200 in a normal state are instructed to failover.

At this time, although not specifically shown in the drawing, a control unit (not shown) may be included to overall control the components 210 to 260 of the shearing device 200 . Alternatively, it should be noted that the front end treatment device management unit 210 may perform the function of the control unit (not shown).

FIG. 5 is an exemplary diagram shown to explain the multi-protocol communication linkage method of the front-end processing device in FIG. 2. Referring to FIG.

In this embodiment, when the new FRTU is input, it is possible to link the new FRTU in communication with a plug-and-play method during operation without stopping the front end processing unit (FEP). let it be

Referring to FIG. 5, the shear processing device 200 according to this embodiment performs communication linkage immediately without SW redevelopment of the new shear processing device (HA FEP) when a distribution intelligence terminal device using a new protocol is put into the system. To provide protocol dynamic extension function. That is, the front end processing device 200 according to the present embodiment provides an extended I/O interface function and standard specifications for accommodating a communication protocol.

For example, when a manufacturer of a distribution intelligence terminal device 500 having a new protocol provides a communication library according to a defined interface standard, the front-end processing device 200 dynamically loads the communication library to generate a new distribution intelligence terminal device 500. and perform communication linkage work.

On the other hand, the user registers information on the intelligent distribution terminal device 500 using a new communication protocol by using the management function of the intelligent distribution terminal device of the HMI unit 100 of the front end processing device. Register communication library information as well. The new distribution intelligence terminal device 500 information added by the user as described above is transmitted to the corresponding communication group manager 240 of the front end processing device cluster 300 to create a new communication group, and the distribution intelligence terminal device processing unit 250 6 to create a data point and a processing object for processing the control function of the new distribution intelligence terminal device 500 through and allocate it to a new communication group, and to support a new communication protocol using the communication management unit 260 Create a communication library according to the I/O interface standard defined as described above. FIG. 6 is an exemplary diagram showing I/O interface standards defined to support a new communication protocol in FIG. 5 .

FIG. 7 is an exemplary diagram for explaining the operation of the clustering management unit in FIG. 2 in more detail.

Referring to FIG. 7, the shear processing device cluster 300 is configured to include a plurality of unit shear processing devices 200, and a specific unit shear processing device 200 among the unit shear processing devices 200 is a master ( Master), and the rest of the unit pre-processing devices 200 take on the role of slaves to distribute tasks such as control requests of the distribution intelligence system 400 and measurement data acquisition of the distribution intelligence terminal devices 500 deal with

Here, the master unit shear processing device 200 monitors the state of the slave unit shear processing device 200 in real time, and if the state of any slave unit shear processing device 200 is determined to be abnormal (failure) Distribution intelligence terminal devices 500 in charge of the corresponding unit front-end processing device 200 are assigned to the normal slave unit front-end processing device 200 in the front-end processing device cluster 300 so that the communication linkage work is normally performed even in the event of a failure do.

In addition, when a communication connection request is generated from the intelligent distribution system 400 with the new distribution intelligent terminal device 500, the master unit front end processing device 200 receives the request, and the slave unit front end processing device 200 in the cluster ) and the capacities of other slave unit shear processing devices 200 are compared, and the new distribution intelligent terminal devices 500 are allocated to the unit shear processing devices 200 having the highest available capacity.

However, if a failure occurs in the master unit shear processing unit 200 that is being executed, the slave unit shear processing unit 200 in the cluster also monitors the state of the master unit shear processing unit 200 in real time to cope with it.

To this end, the master unit shearing device 200 periodically transmits its status to the slave unit shearing device 200 .

Accordingly, if the master unit shearing device 200 does not transmit a signal indicating its status for a specified time, the highest shearing device ID (eg ID # 1) among the slave unit shearing devices 200 The unit shear processing device 200 having a function of the master unit shear processing device 200, and all slave unit shear processing devices 200 replace the failed master unit shear processing device 200 with the shear processing device cluster. Remove within (300).

At this time, the shear processing device ID is registered as a slave unit shear processing device 200 from the unit shear processing device 200 designated as the master through the shear processing device cluster management function when the unit shear processing device 200 is started. is issued

As described above, the present embodiment has an effect of enabling a large amount of multi-type distribution intelligent terminal units (FRTUs) to be connected without stopping the front end processing unit (FEP) in the distribution system operating system.

The present invention has been described above with reference to the embodiments shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments. you will understand the point. Therefore, the technical protection scope of the present invention should be determined by the claims below. Implementations described herein may also be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if discussed only in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit, programmable logic device, or the like. Processors also include communication devices such as computers, cell phones, personal digital assistants ("PDAs") and other devices that facilitate communication of information between end-users.

100: shear processing device HMI unit
200: shearing device
210: Shearing device management unit
220: distribution intelligence system linked interface unit
230: clustering management unit
240: communication group management unit
250: distribution intelligence terminal device processing unit
260: communication management unit
300: Shearing device cluster
400: distribution intelligence system
500: distribution intelligence terminal device

Claims (15)

A front end processing device cluster that performs communication linkage with a plurality of distribution intelligent terminal devices installed and operated in the distribution intelligent system and distribution system; and
Distribution intelligent terminal device management function that is connected to the front end processing device cluster and performs addition, deletion, and monitoring of distribution intelligent terminal devices, monitoring and controlling the performance status of the front end processing device cluster, and user in case of failure in the front end processing device Including; a shear processing device HMI (Human Machine Interface) unit that performs a front processing device cluster management function for restarting a failed shear processing device according to the set number of times,
The shear processing device cluster,
Clustering a plurality of shear processing devices and sharing work between a plurality of shear processing devices through clustering that connects the plurality of shear processing devices communicatively;
The shearing device,
A front-end processing device management unit that performs internal function initialization and collects and shares the status of each unit front-end processing device when starting the front-end processing device;
The front end treatment device management unit,
The clustering management unit of the unit front-end processing devices constituting the front-end processing device cluster is initialized to share distribution information of distribution intelligent terminal devices in charge of each unit front-end processing device and to share the execution state of each unit front-end processing device,
When a failure occurs in any shear processing device, the shear processing device cluster management function of the shear processing device HMI unit proceeds with the restart procedure of the shear processing device according to the number of times preset by the user, and the restart procedure Therefore, if it is not normalized, failover is instructed to the clustering management units of the unit front-end processing unit in normal state, and
The shearing device,
An intelligent distribution system linkage interface unit that performs linkage with external systems that want to communicate with the intelligent distribution terminal device, receives a control command for the intelligent distribution terminal device from the external system, and returns a processing result;
It manages the configuration information of the unit front-end processing device constituting the front-end processing device cluster, performs the function of electing a master front-end processing device and re-election in case of failure, and allocating distribution intelligent terminal devices among the front-end processing devices. and a clustering management unit that manages distribution information and performs a function of redistributing distribution intelligence terminal devices allocated to a particular front-end processing device to sound front-end processing devices when a failure occurs in a specific front-end processing device;
A communication group management unit that performs management tasks such as creation, deletion, and modification of communication groups and manages information of distribution intelligence terminals in each communication group;
A distribution intelligence terminal device processing unit that performs data point information and control functions of the distribution intelligence terminal device; and
A front-end processing device for monitoring and controlling a distribution system, further comprising: a communication management unit supporting a plurality of communication protocols for communication connection with a distribution intelligent terminal device.
The method of claim 1, wherein the front end treatment device cluster,
Distribution system monitoring and control, characterized in that performing tasks of transmitting values obtained from distribution intelligence terminal devices at the distribution system site to the distribution intelligence system and transmitting a control signal requested by the distribution intelligence system to the distribution intelligence terminal device. Shearing device for
delete delete delete delete The method of claim 1, wherein the clustering management unit,
Among the front-end processing devices in the front-end processing device cluster, a specific front-end processing device plays the role of master, and the rest of the front-end processing devices play the role of slaves, so that the control request of the intelligent distribution system and the intelligent distribution terminal A front-end processing device for monitoring and controlling a distribution system, characterized in that it distributes and processes measurement data acquisition work of devices.
The method of claim 7, wherein the master shearing device,
Monitoring the status of slave shear processing devices in real time,
If the status of any slave shearing device is determined to be faulty,
Distribution system monitoring and control characterized by assigning distribution intelligence terminal devices in charge of the corresponding front-end processing unit determined to be faulty to normal slave front-end processing units in the front-end processing unit cluster in order to ensure that communication-linked work is normally performed even in the event of a failure Shearing device for
The method of claim 7, wherein the master shearing device,
When a new distribution intelligence terminal device and a communication connection request are generated from the distribution intelligence system,
A front-end processing device for monitoring and controlling a distribution system, characterized in that a new distribution intelligent terminal device is allocated to a front-end processing device with the highest available capacity by comparing the workload of a slave front-end processing device in a cluster with the capacity of other slave front-end processing devices.
The method of claim 7, wherein the slave shearing device,
In order to cope with the failure of the master shearing device,
Monitors the status of the master shear processing unit in real time,
To this end, the master shear processing unit periodically transmits its status to the slave shear processing units, and if a signal informing of its status is not transmitted from the master shear processing unit for a specified period of time, a failure occurs in the existing master shear processing unit. Upon determining that it has occurred, the shearing device having the highest shearing device ID among the slave shearing devices serves as a new master shearing device,
A shear processing device for monitoring and controlling a power distribution system, characterized in that all slave shear processing devices remove the existing master shear processing device having a failure from the shear processing device cluster.
The clustering management unit within the front-end processing device cluster that performs communication linkage with the distribution intelligence system and a plurality of distribution intelligence terminal devices installed and operated in the distribution system, and a specific front-end processing device among the plurality of front-end processing devices plays the role of a master to perform;
allowing, by the clustering management unit, the remaining shear processing devices other than the specific shear processing device performing the master role among the plurality of shear processing devices to perform a slave role; and
Distributing and processing, by the clustering management unit, the control request of the intelligent distribution system and the measurement data acquisition task of the intelligent distribution terminal devices to the master front end processing device and the slave front end processing device,
A shear processing device cluster clustering a plurality of shear processing devices,
Sharing the work between a plurality of front-end processing devices through clustering that connects the plurality of front-end processing devices communicatively;
The shearing device,
A front-end processing device management unit that performs internal function initialization and collects and shares the status of each unit front-end processing device when starting the front-end processing device;
The front end treatment device management unit,
The clustering management unit of the unit front-end processing devices constituting the front-end processing device cluster is initialized to share distribution information of distribution intelligent terminal devices in charge of each unit front-end processing device and to share the execution state of each unit front-end processing device,
When a failure occurs in any shear processing device, the shear processing device cluster management function of the shear processing device HMI unit proceeds with the restart procedure of the shear processing device according to the number of times set by the user, and according to the restart procedure If it is not normalized, it instructs the clustering management units of the unit front-end processing unit in normal state to recover from failure, and also
The shearing device,
An intelligent distribution system linkage interface unit that performs linkage with external systems that want to communicate with the intelligent distribution terminal device, receives a control command for the intelligent distribution terminal device from the external system, and returns a processing result;
It manages the configuration information of the unit front-end processing device constituting the front-end processing device cluster, performs the function of electing a master front-end processing device and re-election in case of failure, and allocating distribution intelligent terminal devices among the front-end processing devices. and a clustering management unit that manages distribution information and performs a function of redistributing distribution intelligence terminal devices allocated to a particular front-end processing device to sound front-end processing devices when a failure occurs in a specific front-end processing device;
A communication group management unit that performs management tasks such as creation, deletion, and modification of communication groups and manages information of distribution intelligence terminals in each communication group;
A distribution intelligence terminal device processing unit that performs data point information and control functions of the distribution intelligence terminal device; and
A front-end processing method for monitoring and controlling a distribution system, further comprising: a communication management unit supporting a plurality of communication protocols for communication connection with a distribution intelligent terminal device.
The method of claim 11, after the step of allowing the specific shearing device to serve as a master,
The master shearing device,
Monitoring the status of slave shear processing devices in real time,
If the status of any slave shearing device is determined to be faulty,
Distribution system monitoring and control characterized by assigning distribution intelligence terminal devices in charge of the corresponding front-end processing unit determined to be faulty to normal slave front-end processing units in the front-end processing unit cluster in order to ensure that communication-linked work is normally performed even in the event of a failure Shear treatment method for
The method of claim 11, wherein after the step of allowing the specific shearing device to serve as a master;
The master shearing device,
When a new distribution intelligence terminal device and a communication connection request are generated from the distribution intelligence system,
A front-end processing method for monitoring and controlling a distribution system, characterized in that a new distribution intelligent terminal device is allocated to a front-end processing unit having the highest available capacity by comparing the workload of a slave front-end processing unit in a cluster with the capacity of other slave shear-processing units.
The method of claim 11, after the step of allowing the rest of the front-end processing devices to perform a slave role except for the specific front-end processing device,
The slave shearing device,
In order to cope with the failure of the master shearing device,
Monitors the status of the master shear processing unit in real time,
To this end, the master shear processing unit periodically transmits its status to the slave shear processing units, and if a signal informing of its status is not transmitted from the master shear processing unit for a specified period of time, a failure occurs in the existing master shear processing unit. A shear processing method for monitoring and controlling a distribution system, characterized in that by determining that it has occurred, the shear processing device having the highest shear processing device ID among the slave shear processing devices serves as a new master shear processing device.
According to claim 14,
If it is determined that a failure has occurred in the existing master shearing device,
A shear processing method for monitoring and controlling a distribution system, characterized in that all slave shear processing devices remove the existing master shear processing device having a failure from the shear processing device cluster.

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