CN112270469B - Remote equipment management method completed by synchronizing equipment attribute feature library - Google Patents

Abstract

The invention discloses a remote equipment management method for completing a synchronous equipment attribute feature library, which comprises the following steps: satellite assembly macro creation or modification; and the operation and control center modifies the assembly macro. By the method, each station and each device can report information and state at the same time, and the method is accurate and efficient, so that the reliability of the system is greatly improved; the control time of the operation control center for each station device is changed from a serial mode to a parallel mode for each station, so that the time can be reduced to within 1 minute from the traditional 5-10 minutes, and the effective working time of the system is greatly improved; the effective use efficiency of the equipment of the ground station is improved by more than 20 percent; the invention changes the complex switching of remote equipment and task allocation into efficient and reliable operation, and the operation management subsystem of each station completes parameter configuration and state acquisition at the bottom layer, thereby improving the reliability and flexibility of the system; the fault and state reporting of the remote equipment is more efficient.

Description

Remote equipment management method completed by synchronizing equipment attribute feature library

Technical Field

The invention relates to the technical field of a Fengyun No. three ground system, in particular to a remote equipment management method completed by a synchronous equipment attribute feature library.

Background

The wind cloud third-grade ground system is a highly automated 24-hour service operation system, and integrates multi-task management, scheduling, equipment state acquisition, task automatic allocation, conflict automatic judgment, data quality judgment, remote equipment switching and the like, and the basis for completing the tasks is remote management of equipment.

The traditional remote equipment management needs a control center, parameters of each piece of equipment are modified, and the like, so that the speed is low, and network resources are occupied for a long time.

Disclosure of Invention

In view of the above technical problems in the related art, the present invention provides a remote device management method implemented by synchronizing device attribute feature libraries, which can overcome the above disadvantages in the prior art.

In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:

a remote device management method for synchronizing device attribute feature library completion, the method comprising:

s1: satellite assembly macro creation or modification;

the step S1 includes the steps of:

s11: an operator operates the ground station management software and configures a group macro according to the requirement of satellite data receiving;

s12: an operator operates the ground station management software to modify the satellite assembly macro;

s13: after the creation or modification of the assembly macro is completed, the station management software sends data synchronization information to the operation control center;

s14: after receiving the data synchronization information, the operation and control center updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous creation or modification of the configuration macro information;

s2: the operation and control center modifies the assembly macro;

the step S2 includes the steps of:

s21: an operator operates centralized monitoring software of the operation control center to modify the satellite assembly macro information of the ground station, wherein the modified assembly macro information comprises increase and decrease of receiving equipment and configuration parameters of each equipment;

s22: after finishing the modification of the assembly macro, the operation control center sends data synchronization information to the station management software;

s23: after receiving the data synchronization information, the station management software updates the feature database according to the configuration macro information contained in the information to complete the synchronous modification of the configuration macro information.

Further, in step S11, the content of the configuration macro includes the required receiving device and the configuration parameters of each device.

Further, in step S12, the modified content includes increase and decrease of devices and configuration parameters of each device.

Further, before step S1, available resources of each station, a device status, and device configuration information required to complete a task must be determined.

Further, each of the devices has an independent and unique number, and the devices in the whole system are used as a set.

Furthermore, when the operation control center modifies parameters of the equipment or switches connection relations or allocates tasks, the operation control center modifies the characteristic database and sends a database synchronization signal to the ground station.

Furthermore, when the state of the equipment at the ground station changes, the local characteristic database is modified in time, and a database synchronization signal is sent to the operation control center for fault alarm.

The invention has the beneficial effects that: by the method, each station and each device can report information and state at the same time, and the method is accurate and efficient, so that the reliability of the system is greatly improved; the control time of the operation control center on the equipment of each station is changed from a serial mode to a parallel mode of each station, so that the time can be reduced to less than 1 minute from the traditional 5-10 minutes, and the effective working time of the system is greatly improved; the effective use efficiency of the equipment of the ground station is improved by more than 20 percent; the invention changes the complex switching of remote equipment and task allocation into efficient and reliable operation, and the operation management subsystem of each station completes parameter configuration and state acquisition at the bottom layer, thereby improving the reliability and flexibility of the system; the fault and state reporting of the remote equipment is more efficient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram illustrating a method for remote device management performed by synchronizing device attribute libraries according to an embodiment of the present invention;

FIG. 2 is a flow chart of the creation and modification of the configuration macro of the method for remote device management performed by synchronizing the device attribute libraries according to the embodiment of the present invention;

fig. 3 is a macro flowchart of the operation control center modifying and assembling of the remote device management method performed by synchronizing the device attribute feature library according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

As shown in fig. 1 to 3, a method for remote device management completed by synchronizing a device attribute feature library according to an embodiment of the present invention includes:

s1: satellite assembly macro creation or modification;

the step S1 includes the steps of:

s11: an operator operates the ground station management software and configures a group macro according to the requirement of satellite data receiving;

s12: an operator operates the ground station management software to modify the satellite assembly macro;

s13: after the creation or modification of the assembly macro is completed, the station management software sends data synchronization information to the operation and control center;

s14: after receiving the data synchronization information, the operation and control center updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous creation or modification of the configuration macro information;

s2: the operation and control center modifies the assembly macro;

the step S2 includes the steps of:

s21: an operator operates centralized monitoring software of the operation control center to modify the satellite assembly macro information of the ground station, wherein the modified assembly macro information comprises increase and decrease of receiving equipment and configuration parameters of each equipment;

s22: after finishing the modification of the assembly macro, the operation control center sends data synchronization information to the station management software;

s23: and after receiving the data synchronization information, the station management software updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous modification of the configuration macro information.

In an embodiment of the present invention, in step S11, the content of the macro configuration includes the required receiving device and the configuration parameters of each device.

In an embodiment of the present invention, in the step S12, the modified content includes increase and decrease of devices and configuration parameters of each device.

In an embodiment of the present invention, before step S1, available resources of each station, device status and device configuration information required for completing one task must be determined.

In a specific embodiment of the invention, each of said devices has an independent and unique number, said devices in the whole system being a set.

In a specific embodiment of the present invention, when the operation control center performs parameter modification or connection relationship switching or task allocation on the device, the operation control center modifies the feature database and sends a database synchronization signal to the ground station.

In one embodiment of the invention, when the state of the equipment at the ground station changes, the local feature database is modified in time, and a database synchronization signal is sent to the operation control center for fault alarm.

In one embodiment of the invention, the operation control center is located in Beijing, the four domestic stations are respectively located in Guangzhou, calamus, wuluzhiqi and Kashi, and the polar stations are respectively located in the south and the north poles. When the operation control center distributes tasks to each station, firstly, the available resources and the equipment state of each station and the equipment assembly information required by completing one task need to be judged, and the equipment state is configured according to the technical parameters of different receiving satellites. Because each station equipment is more than 100 sets, the quantity and the fault information are different, and the network has the time delay and the like. The technology skillfully defines the equipment attribute, the connection relation and the state of each station. Each device has an independent and unique number, and the devices in the whole system are used as a set. On the basis, a system characteristic database is established, and the same database is deployed in different places in each station management system and the operation control center respectively. When the state of the ground station equipment changes, the local characteristic database is modified in time, a database synchronization signal is sent to the operation control center, so that the fault alarm and the like are finished, and when the operation control center performs parameter modification or connection relation switching or task allocation on certain equipment of a certain station, the characteristic database is modified, and the database synchronization signal is sent to the ground station. Therefore, the management, switching, task allocation and the like of the ground station equipment by the operation control center are completed.

In order to facilitate understanding of the above-described aspects of the present invention, the above-described aspects of the present invention will be described in detail below.

In the working process, the problem of collecting the equipment state by each station is firstly solved so as to establish the characteristics of each station sub-library, and each station completes the work in a local area network. After each station sub-library is established, a synchronization request is sent to the operation control center through the wide area network, and the library attribute is updated after the operation control center corresponds to the synchronization request.

When the operation control center switches the equipment in the station, the operation control center modifies the characteristic database of the operation control center and sends synchronous information to the station sub-library, and the station sub-library controls the equipment switching or equipment parameter setting through the local area network after correspondingly modifying the characteristics of the station sub-library.

When the operation control center distributes tasks to each station, whether each device used for receiving satellite data of each station is normal or not needs to be judged at first, and whether available device resources meet the requirements for receiving satellite data or not needs to be judged. Therefore, the ground station needs to report the running state parameters of each device in the station to the running control center in real time, and provide basic data for the running control center to detect available devices

1 State parameter synchronization

The ground station collects the operation state parameters of each device and completes the update of the station sub-base through the station operation management subsystem, and the station operation management subsystem defines each device and the operation state parameters thereof as follows:

the device attributes are defined as in Table 1

TABLE 1 device Attribute definition

The device status parameters are defined as in Table 2

Table 2 device status parameter definition

And in the operation process of each device, reporting the state parameters to a ground station operation management subsystem, and updating the state parameters of each device to a station sub-library by the station operation management subsystem, and packaging and reporting the state parameters to an operation control center according to a fixed format. In order to ensure real-time reporting of the equipment state parameters and update of a feature library of an operation control center, the TCP/IP Socket protocol is adopted for real-time communication. The specific message frame format is as follows, as shown in table 3:

table 3 general format for real-time transport messages

The information segment is defined as follows:

table 4 information segment definitions

The station operation management subsystem has two modes for reporting the operation state of the equipment. One mode is that the station operation management subsystem sends the equipment state to the operation control center at regular time according to the appointed frequency; one way is that the operation control center actively inquires the state of the ground station, and when the station operation management subsystem receives the inquiry command, the operation control center immediately reports the operation state of the equipment.

2 device configuration information synchronization

The device configuration information refers to a combination of a plurality of configuration parameters of a plurality of devices. The method saves a plurality of configuration parameters of a plurality of devices, and can issue the parameters of the devices in batch when the devices need to be configured, thereby achieving the purpose of configuring a plurality of parameters of a plurality of devices simultaneously.

When executing a certain task, the station operation management subsystem automatically starts the configuration macro according to the task type and sends control commands required by task execution to each device stored in the configuration macro, thereby achieving batch issuing of parameters and realizing automation of task execution.

When the operation control center distributes tasks to each station, the operation control center needs to master the equipment assembly information needed by completing one task and configures the equipment state according to the technical parameters of different received satellites. Therefore, a configuration macro feature library is established and respectively deployed in each ground station and an operation control center, and the databases are the same. And each ground station is used as a basic unit for satellite data receiving to complete the establishment of the assembled macro database. When the local configuration macro is changed, the local database is modified, and simultaneously, a data synchronization signal is sent to the operation control center to complete the synchronization of the database. When the operation control center modifies parameters or switches connection relations of certain equipment of a certain station, the characteristic database is modified and a database synchronization signal is sent to the ground station, so that the management of the operation control center on the ground station equipment, the switching of the configuration macro and the like are completed. Thus, the macro feature library is designed and assembled as follows.

Table 5 sets up MACRO table MACRO _ CONFIG

Serial number	Column names	Means of
			1	CONFIG_ID	Assembly macro ID
2	CONFIG_NAME	Group macro name
			3	LEVEL_ID	Assembly macro level ID

Table 6 assembles MACRO DEVICE table MACRO _ CONFIG _ DEVICE

Serial number	Column name	Means of
			1	CONFIG_DEVICE_ID	Assembly macro device ID
2	CONFIG_ID	Assembly macro ID
			3	DEVICE_ID	Device ID

Table 7 assembles the MACRO device table MACRO _ CONFIG _ LEVEL

Serial number	Column names	Means of
			1	LEVEL_ID	Assemble macro-level ID
2	LEVEL_NAME	Assembling macro level names
			3	PARENT_ID	Parent node ID
4	DEFAULT_CONFIG_ID	Default configuration macro ID

Table 8 assembles MACRO DEVICE table MACRO DEVICE COMMAND

Serial number	Column name	Means of
			1	DEVICE_COMMAND_ID	Configuration of Macro control Command ID
2	COMMAND_ID	Device control order ID
			3	CONFIG_DEVICE_ID	Configuration macro device ID
4	ORDER_NUM	Order of execution of commands
			5	SLEEPTIME	Command execution interval time

Table 9 Table for MACRO device table MACRO _ POINT _ VALUE

And each ground station and the operation control center establish a macro database according to the feature library, keep the data synchronization and adopt XML file notification in a synchronization mode. The method is convenient to operate when the configuration macro is changed at a ground station or an operation control center, and simultaneously avoids dirty data generated by adopting database synchronization. The XML design is as follows:

after the technology is adopted, complicated switching and task allocation of remote equipment are changed into efficient and reliable operation, and the operation management subsystem of each station completes parameter configuration and state acquisition on the bottom layer, so that the reliability and flexibility of the system are improved. The fault and state reporting of the remote equipment is more efficient.

The main technical indexes are as follows:

the number of device attributes can be defined;

the number of device states can be defined;

synchronization information: a file XML format;

the state difference between any two places is 1.1 times of the network delay.

The invention changes the complex switching of remote equipment and task allocation into efficient and reliable operation, and the management subsystem of each station completes parameter configuration and state acquisition at the bottom layer, thereby improving the reliability and flexibility of the system. The fault and state reporting of the remote equipment is more efficient.

In specific use, the remote device management method completed according to the synchronous device attribute feature library of the present invention has the following flow steps:

1. satellite Assembly Macro creation/modification procedure

a) The operator operates the station management software of the ground station, and configures the assembly macro according to the requirement of satellite data receiving, which comprises the following steps: equipment to be received and configuration parameters of each equipment are required to be received;

b) The operator operates the ground station management software to modify a satellite assembly macro, comprising: increase and decrease of equipment and modification of configuration parameters of each equipment;

c) After the creation or modification of the assembly macro is completed, the station management software sends data synchronization information to the operation and control center;

d) And after receiving the data synchronization information, the operation and control center updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous establishment or modification of the configuration macro information.

2. Operation control center modifying and assembling macro step

a) The operator operates the centralized monitoring software of the operation and control center to modify the macro information of a certain satellite assembly of a certain ground station, and the method comprises the following steps: receiving the increase and decrease of the equipment and the modification of the configuration parameters of each equipment;

b) After finishing the modification of the assembly macro, the operation control center sends data synchronization information to the station management software;

c) And after receiving the data synchronization information, the station management software updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous modification of the configuration macro information.

In summary, by means of the above technical solution of the present invention, by the method, each station and each device can report information and status simultaneously, and the method is accurate and efficient, thereby greatly improving the reliability of the system; the control time of the operation control center on the equipment of each station is changed from a serial mode to a parallel mode of each station, so that the time can be reduced to less than 1 minute from the traditional 5-10 minutes, and the effective working time of the system is greatly improved; the effective use efficiency of the equipment of the ground station is improved by more than 20 percent; the invention changes the complex switching of remote equipment and task allocation into efficient and reliable operation, and the operation management subsystem of each station completes parameter configuration and state acquisition at the bottom layer, thereby improving the reliability and flexibility of the system; the fault and state reporting of the remote equipment is more efficient.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. A remote device management method completed by synchronizing a device attribute feature library is characterized by comprising the following steps:

s1: satellite assembly macro creation or modification;

the step S1 includes the steps of:

s11: an operator operates the ground station management software and configures a group macro according to the requirement of satellite data receiving;

s12: an operator operates the ground station management software to modify the satellite assembly macro;

s13: after the creation or modification of the assembly macro is completed, the station management software sends data synchronization information to the operation control center;

s14: after receiving the data synchronization information, the operation and control center updates the characteristic database according to the configuration macro information contained in the information to complete the synchronous creation or modification of the configuration macro information;

s2: the operation and control center modifies the assembly macro;

the step S2 includes the steps of:

s21: an operator operates centralized monitoring software of the operation control center to modify the satellite assembly macro information of the ground station, wherein the modified assembly macro information comprises increase and decrease of receiving equipment and configuration parameters of each equipment;

s22: after finishing the modification of the assembly macro, the operation control center sends data synchronization information to the station management software;

s23: after receiving the data synchronization information, the station management software updates the feature database according to the configuration macro information contained in the information to complete the synchronous modification of the configuration macro information; and when the equipment state of the ground station is changed, the local characteristic database is modified in time, and a database synchronization signal is sent to the operation control center for fault alarm.

2. The method as claimed in claim 1, wherein in step S11, the content of the configuration macro includes the required receiving device and the configuration parameters of each device.

3. The method for remote device management with synchronization of device attribute library according to claim 1, wherein in step S12, the modified content includes increase/decrease of devices and configuration parameters of each device.

4. The method as claimed in claim 1, wherein before step S1, the available resources of each station, the status of the device, and the device configuration information required for completing one task must be determined.

5. A method of remote device management accomplished by synchronizing device attribute profiles according to claim 2 or 3, wherein each of said devices has an independent and unique number, and said devices in the entire system are treated as a collection.

6. The method as claimed in claim 5, wherein the operation control center modifies the feature database and sends a database synchronization signal to the ground station when performing a parameter modification or connection relationship switching or assignment task on the device.

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