CN109191082B - Programming method and system of scheduling platform and computer readable storage medium - Google Patents
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Abstract
The embodiment of the application discloses a programming method and a system of a scheduling platform and a computer readable storage medium, an operation task control sequence is obtained by decomposing operation tasks of an operation ticket, anti-misoperation safety check operation is automatically and orderly executed, the programming operation is started under the condition that a remote operation condition is met, the equipment state before each step of operation execution and the equipment state after the execution are checked, and the mode of automatically executing the programming operation by the system is used for replacing the mode of manually operating according to steps, so that the misoperation risk existing in manual operation is reduced, the potential safety hazard is reduced, the execution efficiency is improved, and the technical problems that the conventional scheduling operation ticket system depends on manual scheduling, the risk of manual misoperation is high, the potential safety hazard exists, time and labor are consumed, and the execution period is long are solved.
Description
Technical Field
The present application relates to the field of power system automation technologies, and in particular, to a programming method and system for a scheduling platform, and a computer-readable storage medium.
Background
With the rapid development of power grid construction, the scale of a transformer substation is continuously enlarged, the first-line production task of the power grid is increasingly heavy, and the safe operation and the working efficiency of the power grid become concerns.
The operation ticket is a written basis for electrical operation in the power system, comprises a scheduling instruction ticket and a power transformation operation ticket, and is a main measure for preventing misoperation. The traditional method for scheduling the operation tickets is implemented by manually controlling operation task steps by a dispatcher in sequence, the dispatcher needs to start each operation step in sequence in a manual control mode, the dispatcher firstly utilizes an OCS (operation control system) to perform error-proof check, and after the check is passed, the operation is implemented, the implementation mode of each operation step is divided into a remote control mode and a field operation mode, the remote control operation depends on the dispatcher to click the OCS to start the remote control operation, the field operation needs a telephone or other network modes to inform a transformer substation, the OCS system state is checked after the on-site operation is accepted, and the manual scheduling mode is relied on, so that the risk of artificial misoperation is large, potential safety hazards exist, time consumption and labor consumption are caused, and the implementation period is long.
Disclosure of Invention
The embodiment of the application provides a programming method and system of a scheduling platform and a computer readable storage medium, and solves the technical problems that an existing scheduling operation ticket system depends on manual scheduling, the risk of manual misoperation is large, potential safety hazards exist, time and labor are consumed, and the execution period is long.
In view of the above, a first aspect of the present application provides a programmed method of dispatching a platform, the method comprising:
decomposing an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list;
executing anti-error safety check operation according to the operation task control sequence, wherein the anti-error safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation;
and comparing the execution control information list with a remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, and checking the equipment state before and after each operation when executing the programming operation.
Preferably, the comparing the execution control information list with the remote operation information list to determine whether a remote operation condition is satisfied, if so, starting a programming operation, and checking an equipment state before execution and an equipment state after execution of each operation when executing the programming operation specifically includes:
and comparing the execution control information list with a remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, checking the equipment state before executing each step of operation and the equipment state after executing each step of operation when executing the programming operation, and if not, starting a telephone/network command control operation.
Preferably, the parsing an operation task control sequence according to an operation task of an operation ticket and establishing an execution control information list further includes:
performing data format check on an initial operation task, and taking the initial operation task with a check result being error-free as an operation ticket operation task, wherein the data format check comprises the following steps: and checking the integrity of the data format and checking the correctness of the data format.
Preferably, the data format checking is performed on the initial operation task, and the initial operation task with the checking result being error-free is used as the operation ticket operation task, and the data format checking includes: the data format integrity check and the data format correctness check also comprise the following steps:
establishing connection between an OCS system and a DICP system through Java RMI, acquiring an initial operation task in an XML format, and storing the initial operation task in a file mode, wherein the communication between the OCS system and the DICP system follows a DICP data interface protocol.
Preferably, the programming operation specifically includes: the method comprises the steps of device state defining operation, programmed operation order defining operation, simulated rehearsal operation and operation order executing operation.
Preferably, the data format checking is performed on the initial operation task, and the initial operation task with the checking result being error-free is used as the operation ticket operation task, and the data format checking includes: the data format integrity check and the data format correctness check specifically include:
performing data format check on an initial operation task, if the check result is correct, taking the initial operation task as an operation ticket operation task, if the check result is wrong, abandoning the initial operation task, and sending data error warning information to a DICP system, wherein the data format check comprises the following steps: and checking the integrity of the data format and checking the correctness of the data format.
Preferably, the anti-error safety check operation is executed according to the operation task control sequence, and the anti-error safety check operation includes: the locking error-proof check operation, the topology error-proof check operation, the power grid tide check operation and the equipment state check operation specifically comprise:
executing anti-error safety check operation according to the operation task control sequence, if the check result of the anti-error safety check operation is incorrect, stopping executing the next operation, and sending an alarm to the DICP system, wherein the anti-error safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation;
the checking the device state before and after each operation is executed specifically includes:
checking the equipment state before each operation is executed and the equipment state after each operation is executed, stopping executing the next operation if the checking result is incorrect, and sending an alarm to the DICP system.
In a second aspect, the present application provides a programmed system of a dispatch platform, the system comprising:
the table building module is used for decomposing an operation task control sequence according to the operation task of the operation ticket and building an execution control information list;
and the anti-error module is used for executing anti-error safety checking operation according to the operation task control sequence, and the anti-error safety checking operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation;
and the programming module is used for comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, starting programming operation if the remote operation condition is met, and checking the equipment state before each step of operation execution and the equipment state after execution when the programming operation is executed.
Preferably, the programming system further comprises:
the format module is used for carrying out data format check on the initial operation task, taking the initial operation task with a check result being error-free as an operation ticket operation task, and the data format check comprises the following steps: checking the integrity of the data format and checking the correctness of the data format;
the billing module is used for establishing connection between the OCS system and the DICP system through Java RMI, acquiring an initial operation task in an XML format and storing the initial operation task in a file mode, wherein the communication between the OCS system and the DICP system follows a DICP data interface protocol;
the programming module is specifically used for comparing the execution control information list with a remote control operation information list, judging whether a remote operation condition is met, if so, starting programming operation, checking the equipment state before execution and the equipment state after execution of each step of operation when the programming operation is executed, and if not, starting telephone/network command control operation;
the format module is specifically configured to perform data format check on an initial operation task, if the check result is correct, use the initial operation task as an operation ticket operation task, if the check result is incorrect, discard the initial operation task, and send data error warning information to the DICP system, where the data format check includes: and checking the integrity of the data format and checking the correctness of the data format.
A fourth aspect of the present application provides a computer-readable storage medium for storing program code for performing the method of the first aspect.
According to the technical scheme, the embodiment of the application has the following advantages:
in an embodiment of the present application, a programming method for a scheduling platform is provided, including: decomposing an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list; according to the operation task control sequence, executing anti-misoperation safety check operation, wherein the anti-misoperation safety check operation comprises the following steps: locking error-proof checking operation, topology error-proof checking operation, power grid power flow checking operation and equipment state checking operation; and comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, and checking the equipment state before executing each step of operation and the equipment state after executing the programming operation. According to the method, the operation task control sequence is obtained by decomposing the operation task of the operation ticket, the anti-misoperation safety check operation is automatically and orderly executed, the programmed operation is started under the condition that the remote operation condition is met, the equipment state before each step of operation execution and the equipment state after each step of operation execution are checked, the mode of manual step operation is replaced by the mode of automatically executing the programmed operation by the system, the misoperation risk caused by manual operation is reduced, the potential safety hazard is reduced, the execution efficiency is improved, the technical problems that the conventional scheduling operation ticket system depends on manual scheduling, the risk of manual misoperation is large, the potential safety hazard is caused, time and labor are consumed, and the execution period is long are solved.
Drawings
FIG. 1 is a flowchart illustrating a method for programming a dispatch platform according to an embodiment of the present disclosure;
FIG. 2 is another flow chart illustrating a method for programming a dispatch platform according to an embodiment of the present disclosure;
fig. 3 is a schematic structural diagram of a programming system of a dispatch platform according to an embodiment of the present disclosure.
Detailed Description
In order to make those skilled in the art better understand the technical solutions of the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Referring to fig. 1, fig. 1 is a flowchart illustrating an embodiment of a method for programming a dispatch platform according to the present disclosure, including:
101. and resolving an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list.
It should be noted that, in the embodiment of the present application, after the operation ticket operation task is obtained, the operation ticket operation task is divided into an operation task control sequence, so that the operation tasks are automatically and sequentially executed according to the sequence; the control information list in this embodiment may be an operating device information table accessed from a dicp (distributing Intelligent Command platform) system, where information in the operating device information table includes: equipment name, equipment code, transformer substation to which the equipment belongs, remote control possibility, operation serial number, parallel item serial number, equipment state before operation, equipment state after operation and the like.
102. According to the operation task control sequence, executing anti-misoperation safety check operation, wherein the anti-misoperation safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation.
It should be noted that, in the embodiment of the present application, after the operation task control sequence is obtained, an anti-misoperation safety check operation needs to be executed, starting from aspects of maintenance request form closed-loop management, topology safety check, power grid power flow safety check, and the like, by applying various technical check means such as state check, five-prevention lockout, power flow check, and the like, comprehensive safety intelligent anti-misoperation is realized, and human misoperation is avoided. Locking error-proof checking operation, after obtaining maintenance application data through butt joint with a maintenance sheet of an OMS (operation Management System), analyzing a maintenance application sheet, obtaining the time of starting work and finishing work, and thus automatically generating an operation order; the topology anti-error check operation is mainly used for remotely operating a circuit breaker, a disconnecting switch and a grounding disconnecting link and restricting the safe operation of an operator by analyzing the running state of equipment through network topology. The power grid topology and the five-prevention rule are combined to realize the operation locking between the devices, and the misoperation-preventive locking relation between stations and stations in the stations can be accurately identified, and the misoperation-preventive locking starting from the whole network model is realized. And (3) power grid load flow checking operation, wherein an interface of the OCS system acquires graphs, models and real-time running data, reliable data basis is provided for real-time billing and safety checking of an operation ticket system, and voltage out-of-limit, line or main transformer overload, section out-of-limit and the like are checked according to load flow calculation results. And equipment state checking operation, namely checking the preparation state of the equipment associated with the operation step before the execution of the operation ticket step, checking the target completion state of the equipment associated with the operation step when the execution of the operation ticket step is completed, giving a checking result, and interrupting the operation and giving a prompt when the states are inconsistent.
103. And comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, and checking the equipment state before executing each step of operation and the equipment state after executing the programming operation.
In this embodiment, after the control information list is acquired, the operation steps in the control information list may be extracted, whether the operation device is remotely controllable is identified by comparing the operation steps with the operation steps in the remote control operation information table, and if the identification result is that the operation device is remotely controllable, the remote operation condition is met. The programmed operation is an automatic mode which applies an automatic control technology, a state automatic identification technology and an intelligent judgment technology and converts a traditional manual switching operation mode which is tedious, repeated and easy to operate by mistake into an automatic mode which comprises the steps of prefabricating operation item software, building an operation task module, automatically judging the state of equipment, intelligently checking by mistake, starting operation steps by one key and automatically and sequentially executing an operation process. When one programmed operation flow is finished, starting the next operation flow until the flow is finished.
In an embodiment of the present application, a programming method for a scheduling platform is provided, including: decomposing an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list; according to the operation task control sequence, executing anti-error safety check operation, wherein the anti-error safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation; and comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, and checking the equipment state before executing each step of operation and the equipment state after executing the programming operation. According to the method, the operation task control sequence is obtained by decomposing the operation task of the operation ticket, the anti-misoperation safety check operation is automatically and orderly executed, the programmed operation is started under the condition that the remote operation condition is met, the equipment state before each step of operation execution and the equipment state after each step of operation execution are checked, the mode of manual step operation is replaced by the mode of automatically executing the programmed operation by the system, the misoperation risk caused by manual operation is reduced, the potential safety hazard is reduced, the execution efficiency is improved, the technical problems that the conventional scheduling operation ticket system depends on manual scheduling, the risk of manual misoperation is large, the potential safety hazard is caused, time and labor are consumed, and the execution period is long are solved.
For easy understanding, please refer to fig. 2, in which fig. 2 is a flowchart illustrating another embodiment of a method for programming a dispatch platform according to the present disclosure, including:
201. the OCS system and the DICP system are connected through Java RMI, initial operation tasks in an XML format are obtained and stored in a file mode, and communication between the OCS system and the DICP system follows a DICP data interface protocol.
It should be noted that, in the embodiment of the present application, the OCS system and the DICP system may establish a connection through a Java RMI technology, and the DICP system may obtain the initial operation task in the XML format from the OCS system and save the initial operation task data in a file manner.
202. And carrying out data format check on the initial operation task, if the check result is correct, taking the initial operation task as an operation ticket operation task, if the check result is wrong, abandoning the initial operation task, and sending data error alarm information to the DICP system, wherein the data format check comprises the following steps: and checking the integrity of the data format and checking the correctness of the data format.
It should be noted that, in the embodiment of the present application, the checking of the initial operation task is mainly checking of a data format, the data format checking mainly includes integrity checking and correctness checking, and the integrity checking includes that each operation step data includes an operation serial number, a parallel serial number, an operation unit, an operation device, a pre-operation state, and a post-operation state. The correctness check comprises the correctness of operation serial numbers in the operation step, item serial numbers, operation units, operation equipment, states before operation and state information after operation; the operation sequence number is an orderly increasing number from 1, and each item is not repeatable; the parallel serial numbers are increasing numbers starting from 1, the parallel serial numbers of two adjacent steps can be the same, and the parallel serial numbers are the same, which means that two operations can be started and executed at the same time; the operation units and the operation equipment can be preset and inquired in an operation unit and operation equipment information list library; the pre-operational state and the post-operational state may be looked up in a device state list.
203. And resolving an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list.
It should be noted that step 203 is the same as step 101 in the first embodiment, and detailed description thereof is omitted here.
204. According to the operation task control sequence, executing anti-error safety check operation, if the check result of the anti-error safety check operation is incorrect, stopping executing the next operation, and sending an alarm to the DICP system, wherein the anti-error safety check operation comprises the following steps: locking error-proof checking operation, topology error-proof checking operation, power grid power flow checking operation and equipment state checking operation.
It should be noted that after the operation task control sequence is obtained, an anti-misoperation safety check operation needs to be executed, starting from aspects of maintenance request form closed-loop management, topology safety check, power grid tidal current safety check and the like, by applying various technical check means such as state check, five-prevention lockout, tidal current check and the like, comprehensive safety intelligent anti-misoperation is realized, and manual misoperation is avoided. When the check result of the anti-error safety check operation is incorrect, namely any one of the locking anti-error check operation, the topology anti-error check operation, the power grid flow check operation and the equipment state check operation is incorrect, the program quits the automatic execution, and sends out an error alarm to the DICP system, and meanwhile, the system operation mode is changed into a manual operation mode.
205. Comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, checking the equipment state before each operation is executed and the equipment state after the operation is executed, if the checking result is incorrect, stopping executing the next operation, sending an alarm to the DICP system, and if not, starting a telephone/network command control operation.
It should be noted that, in this embodiment of the application, after the start of the programming operation, each step of the programming operation may check the pre-execution state and the post-execution state of the device, and when the states are not consistent, the check result is incorrect, at this time, the operation should be interrupted and a prompt is given, that is, the execution of the next operation is stopped, and an alarm is issued to the DICP system, meanwhile, the system operation mode may be changed to the manual operation mode, and during the execution process, the OCS system and the DICP system are kept synchronized. When one programmed operation flow is finished, starting the next operation flow until the flow is finished.
Further, the programming operation specifically includes: the method comprises the steps of device state defining operation, programmed operation order defining operation, simulated rehearsal operation and operation order executing operation.
It should be noted that, in the embodiment of the present application, the programming operation specifically includes an apparatus state defining operation, a programming operation ticket defining operation, a simulation preview operation, and an operation ticket executing operation.
The equipment state is defined to operate, and any switch corresponding position combination in a corresponding interval can be defined as an equipment state, including an operation state, a hot standby state, a cold standby state and a maintenance state. Through a graph-model synchronization interface of the OCS system, programming operations can initialize the equipment states and combine the equipment states into an equipment state template file through a logic relation defined by a user.
And after the device state definition operation is completed, performing programmed operation flow definition, which generally comprises an initial device state definition, a target device state definition, an operation object task definition, a pre-operation/post-operation check condition definition, an operation delay (timeout) definition, an error handling definition and the like.
Simulating the preview operation, checking the correctness of the content logic of the operation ticket and the effectiveness of the application through the preview simulation before issuing to corresponding execution, detecting and finding the logic and application defects in the operation ticket and giving corresponding revision prompt.
And performing operation on the operation order, and issuing the operation order to a transformer substation monitoring system to execute the scheduling operation order in an XML (extensible markup language) file in a mode of calling RPC (remote Procedure call) after the simulation preview is finished. When the system executes each step of the programmed operation, in order to ensure the safety of each step of operation, relevant execution condition verification is carried out strictly according to the execution condition definition of the operation ticket, after the single step operation is finished, whether the operation is successful or not is checked according to the definition of the operation ticket, if the verification condition is met, the system enters the next step of operation, otherwise, the system enters an anti-error program according to the definition of the operation ticket, exits the execution or prompts a pop-up operation 'pause' or 'continue' dialog box for the user to select.
For ease of understanding, referring to fig. 3, fig. 3 is a diagram illustrating another embodiment of a programming system for a dispatch platform provided herein, including:
and the table building module 301 is configured to decompose an operation task control sequence according to the operation task of the operation ticket, and build an execution control information list.
The anti-error module 302 is used for executing anti-error safety check operation according to the operation task control sequence, and the anti-error safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation.
The programming module 303 is configured to compare the execution control information list with the remote operation information list, determine whether a remote operation condition is satisfied, if so, start a programming operation, and check a device state before execution and a device state after execution of each operation when the programming operation is executed.
The format module 304 is configured to perform data format check on the initial operation task, and use the initial operation task with a check result being error-free as an operation ticket operation task, where the data format check includes: and checking the integrity of the data format and checking the correctness of the data format.
And the billing module 305 is configured to establish a connection between the OCS system and the DICP system through Java RMI, acquire an initial operation task in an XML format, and save the initial operation task in a file manner, where communication between the OCS system and the DICP system conforms to the DICP data interface protocol.
The programming module 303 is specifically configured to compare the execution control information list with the remote operation information table, determine whether a remote operation condition is met, if yes, start a programming operation, check a device state before execution of each operation and a device state after execution when the programming operation is executed, and if not, start a telephone/network command control operation.
The format module 304 is specifically configured to perform data format check on the initial operation task, if the check result is correct, use the initial operation task as an operation ticket operation task, and if the check result is incorrect, discard the initial operation task and send a data error warning message to the DICP system, where the data format check includes: and checking the integrity of the data format and checking the correctness of the data format.
An embodiment of a computer-readable storage medium is provided, which stores program code for implementing any one of the implementation manners of the programmed method of the dispatch platform described in the foregoing embodiments.
It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.
In the several embodiments provided in the present application, it should be understood that the disclosed system and method may be implemented in other ways. For example, the above-described system embodiments are merely illustrative, and for example, the division of the units is only one type of logical functional division, and other divisions may be realized in practice, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit may be implemented in the form of hardware, or may also be implemented in the form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solutions of the present application, which are essential or part of the technical solutions contributing to the prior art, or all or part of the technical solutions, may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present application.
Claims (8)
1. A programmed method of scheduling platforms, comprising:
establishing connection between an OCS (online charging system) and a DICP (digital imaging and communications in parallel) system through Java RMI (Java management interface), acquiring an initial operation task in an XML (extensible markup language) format, and storing the initial operation task in a file mode, wherein the communication between the OCS and the DICP system follows a DICP data interface protocol, the DICP system is an intelligent power grid scheduling command platform, and the OCS is a scheduling operation control system;
performing data format check on an initial operation task, and taking the initial operation task with a check result being error-free as an operation ticket operation task, wherein the data format check comprises the following steps: checking the integrity of the data format and checking the correctness of the data format;
decomposing an operation task control sequence according to the operation task of the operation ticket, and establishing an execution control information list;
and executing anti-error safety checking operation according to the operation task control sequence, wherein the anti-error safety checking operation comprises the following steps: locking error-proof checking operation, topology error-proof checking operation, power grid power flow checking operation and equipment state checking operation;
and comparing the execution control information list with a remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, and checking the equipment state before and after each operation when executing the programming operation.
2. The programmed method according to claim 1, wherein the comparing the execution control information list with the remote operation information table to determine whether a remote operation condition is satisfied, if yes, starting a programmed operation, and checking a device state before and after each operation is executed while the programmed operation is executed, specifically comprising:
and comparing the execution control information list with a remote control operation information list, judging whether a remote operation condition is met, if so, starting a programming operation, checking the equipment state before each operation is executed and the equipment state after the operation is executed when the programming operation is executed, and if not, starting a telephone/network legal control operation.
3. The programming method according to claim 1, wherein the programming operation specifically includes: the method comprises the steps of device state defining operation, programmed operation order defining operation, simulated rehearsal operation and operation order executing operation.
4. The programmed method according to claim 1, wherein the data format check is performed on the initial operation task, the initial operation task with the check result being error-free is taken as an operation ticket operation task, and the data format check comprises: the data format integrity check and the data format correctness check specifically include:
performing data format check on an initial operation task, if the check result is correct, taking the initial operation task as an operation ticket operation task, if the check result is wrong, abandoning the initial operation task, and sending data error warning information to a DICP system, wherein the data format check comprises the following steps: and checking the integrity of the data format and checking the correctness of the data format.
5. The programmed method according to claim 1, wherein the anti-misoperation safety check operation is executed according to the operation task control sequence, and comprises the following steps: the locking error-proof check operation, the topology error-proof check operation, the power grid tide check operation and the equipment state check operation specifically comprise:
executing anti-error safety check operation according to the operation task control sequence, if the check result of the anti-error safety check operation is incorrect, stopping executing the next operation, and sending an alarm to the DICP system, wherein the anti-error safety check operation comprises the following steps: locking anti-error checking operation, topology anti-error checking operation, power grid tide checking operation and equipment state checking operation;
the checking the device state before and after each operation is executed specifically includes:
checking the equipment state before each operation is executed and the equipment state after each operation is executed, stopping executing the next operation if the checking result is incorrect, and sending an alarm to the DICP system.
6. A programmed system for a dispatch platform, comprising:
the billing module is used for establishing connection between the OCS and the DICP through Java RMI, acquiring an initial operation task in an XML format and storing the initial operation task in a file mode, wherein the communication between the OCS and the DICP follows a DICP data interface protocol, the DICP is an intelligent power grid scheduling command platform, and the OCS is a scheduling operation control system;
the format module is used for carrying out data format check on the initial operation task, taking the initial operation task with a check result being error-free as an operation ticket operation task, and the data format check comprises the following steps: checking the integrity of the data format and checking the correctness of the data format;
the table building module is used for decomposing an operation task control sequence according to the operation task of the operation ticket and building an execution control information list;
and the anti-error module is used for executing anti-error safety checking operation according to the operation task control sequence, and the anti-error safety checking operation comprises the following steps: locking error-proof checking operation, topology error-proof checking operation, power grid power flow checking operation and equipment state checking operation;
and the programming module is used for comparing the execution control information list with the remote control operation information list, judging whether a remote operation condition is met, starting programming operation if the remote operation condition is met, and checking the equipment state before each step of operation execution and the equipment state after execution when the programming operation is executed.
7. The programming system according to claim 6, further comprising:
the programming module is specifically used for comparing the execution control information list with a remote control operation information table, judging whether a remote operation condition is met, if so, starting programming operation, checking the equipment state before each step of operation execution and the equipment state after execution when executing the programming operation, and if not, starting telephone/network legal control operation;
the format module is specifically configured to perform data format check on an initial operation task, if the check result is correct, use the initial operation task as an operation ticket operation task, and if the check result is incorrect, discard the initial operation task and send data error warning information to the DICP system, where the data format check includes: and checking the integrity of the data format and checking the correctness of the data format.
8. A computer-readable storage medium for storing program code for performing the programmed method of the dispatch platform of any one of claims 1-5.
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