CN112579560A

CN112579560A - Monitoring control management system and method

Info

Publication number: CN112579560A
Application number: CN202010851116.1A
Authority: CN
Inventors: 石慧慧; 卢晓春; 饶永南
Original assignee: National Time Service Center of CAS
Current assignee: National Time Service Center of CAS
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2021-03-30

Abstract

The invention relates to a monitoring control management system and a method, which comprises resource management, antenna monitoring, equipment monitoring, environment monitoring and task monitoring; the resource management comprises adding, deleting and modifying resources; the antenna monitoring comprises antenna state management, antenna monitoring and data acquisition, antenna control management and antenna health management; the equipment monitoring comprises equipment state management, equipment monitoring and data acquisition and equipment control management; the environment monitoring comprises meteorological data acquisition, lightning early warning management and environment monitoring data acquisition; the task monitoring comprises task state monitoring and task log management. The resource management is to manage system resources, including software/service resources and hardware resources, add, delete and modify the resources, and set up the resource IP, parameters and attributes. The invention has the advantages of diversified data acquisition and evaluation, and real-time task state and task process monitoring.

Description

Monitoring control management system and method

Technical Field

The invention belongs to the technical field of system monitoring management, and particularly relates to a monitoring control management system and a monitoring control management method.

Background

The existing task management system adopts different hardware equipment, different software services and different connection interfaces TCP and UDP, and can not convert interface information into unified interface information for management and communication, so that the management difficulty is high and complicated; in the task execution process, the task state and the task process cannot be monitored, and a worker cannot be prompted when a task is wrong or data is abnormal, and cannot judge the reason of the task abnormality, such as equipment abnormality, network environment failure or operating system abnormality. The functions of system resource log collection, log record management, system resource state information, log information display, resource alarm prompt, thunder and lightning early warning receiving and forwarding to task management and system resource state information pushing interfaces cannot be realized, and the system resource state receiving interfaces and the operation authority management of login users cannot be realized. Manual operation and manual intervention are more, and the integrity of data and the accuracy of data acquisition are greatly reduced.

Disclosure of Invention

The invention aims to solve the problems and provides a monitoring control management system and a monitoring control management method for collecting and evaluating data in a diversified manner and monitoring task states and task processes in real time.

In order to achieve the purpose, the invention provides the following technical scheme:

a monitoring control management system, comprising: resource management, antenna monitoring, equipment monitoring, environment monitoring and task monitoring;

the resource management comprises adding, deleting and modifying resources;

the antenna monitoring comprises antenna state management, antenna monitoring and data acquisition, antenna control management and antenna health management;

the equipment monitoring comprises equipment state management, equipment monitoring and data acquisition and equipment control management;

the environment monitoring comprises meteorological data acquisition, lightning early warning management and environment monitoring data acquisition;

the task monitoring comprises task state monitoring and task log management.

Further, the resource management is to manage system resources, including software/service resources and hardware resources, add, delete and modify the resources, and set the IP, parameters and attributes of the resources.

Furthermore, the antenna monitoring provides the collection of antenna monitoring data, including signal level, antenna pitching and azimuth data, provides antenna control management, controls the antenna pitching and azimuth, and imports antenna guide data to control the antenna; the antenna alarm management manages the antenna state information and sends out alarm prompts according to the antenna health degree information to indicate alarm components and specific alarm information.

Further, the equipment monitors and provides acquisition of equipment state information; providing equipment control management, and setting parameters of the equipment; the equipment alarm management manages the equipment state information and sends out an alarm prompt according to the equipment alarm information to indicate the alarm equipment and the specific alarm information.

Further, environmental monitoring provides environmental data, meteorological data, the smoke detection data acquisition to environmental monitoring device, provides thunder and lightning early warning management, and when the thunder and lightning early warning takes place, the notice task management suspends the task execution process, and the control PDU cuts off the power supply or makes its off-line with corresponding equipment.

Further, the task monitoring provides visual monitoring of the task flow and the current state of equipment in the flow, and equipment and state information related to the task are checked; and providing task log information display, including task control equipment information and parameters, and fault information display and prompt in the task.

In the monitoring control management method of the system, the monitoring control management process comprises the following processes:

s1: monitoring, controlling and managing a data flow direction process;

s2: a resource management process;

s3: resource state information display flow;

s4: resource equipment state collection flow;

s5: a task resource state monitoring process;

s6: a state pushing interface process;

s7: and monitoring, controlling and managing a time sequence flow by a task.

The monitoring control management data flow process comprises the following steps:

1) monitoring and sending a control instruction/state query to antenna control by a hardware resource;

2) antenna control returns control feedback/status information;

3) monitoring and sending a control instruction/state query to equipment control by the hardware resource;

4) the device control returns control feedback/status information;

5) the system comprises detection signal analysis and integrated display software, antenna health state monitoring equipment/antenna deformation monitoring equipment, a small meteorological station, a lightning early warning device, system dynamic visualization software and a master control and management subsystem, wherein the master control and management subsystem actively reports state information to a RabbitMQ communication middleware;

6) the software resource monitors all software/service state information subscribed by the RabbitMQ communication middleware;

7) the resource state information management acquires resource information from a database;

8) monitoring hardware resources and monitoring software resources, and sending all resource state information to resource state information management;

9) resource state information management pushes all state information to RabbitMQ communication middleware;

10) and the system dynamic visualization software, the master control and management subsystem subscribe all resource state information from the RabbitMQ communication middleware.

Further, the specific time sequence flow of the monitoring control management includes the following steps:

1) the task management reports task state information to task monitoring;

2) the task management sends a control instruction to the equipment control and receives control feedback;

3) the equipment control sends a control instruction to the antenna equipment and the hardware equipment and receives control feedback;

4) the device control returns task control feedback information to task management;

5) the hardware equipment reports the state information to the state monitoring equipment;

6) the antenna health monitoring equipment reports the health degree of the antenna to state monitoring;

7) the detection signal analysis and integrated display software reports the state information of the external station equipment to state monitoring;

8) the state monitoring pushes all state information to system visualization software;

9) the small-sized weather station reports weather information and equipment state information to state monitoring;

10) the lightning early warning device pushes lightning early warning information to task monitoring;

11) and (4) the task monitoring pushes thunder early warning information to task management, and the task management executes a thunder early warning strategy.

Further, the resource management process includes the following steps:

1) newly adding a resource flow;

adding new resources;

inputting information such as resource name, IP, port, type and the like;

saving the resource information to a database;

2) and (3) modifying the resource flow:

modifying resource information;

determining whether to modify the resource information;

if not, returning;

fourthly, confirming the modified resource information;

fifthly, submitting the modification information to a database;

3) deleting the resource information:

firstly, determining whether to delete;

if not, returning is deleted;

confirming the deleted resource information;

and fourthly, deleting the resource data from the database.

Compared with the prior art, the invention has the beneficial effects that:

the invention solves the complex problems of different hardware devices, different interfaces of different software services, different communication protocols and different control modes through interface normalization, and can connect and remotely control different devices only by setting IP addresses through resource management;

the visualization mode can only manage and see the state information and the association relation of each device in a graph and topological graph mode, and the devices can be remotely controlled through an interface;

the system has the functions of collecting, evaluating data, monitoring task state and executing task in real time, increasing, deleting, modifying, checking and managing system resources, collecting and managing system resource state, recording and managing system resource logs, displaying system resource state information and log information, warning and prompting system resources, receiving lightning early warning and forwarding task management, pushing system resource state information and receiving system resource state information, and managing operation authority of a login user. Manual operation and manual intervention are reduced, and the integrity of data and the accuracy of data acquisition are ensured.

Drawings

In order to more clearly illustrate the technical solution of the embodiment of the present invention, the drawings needed to be used in the description of the embodiment will be briefly introduced below, it is obvious that the drawings in the following description are only for more clearly illustrating the embodiment of the present invention or the technical solution in the prior art, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a diagram of a monitoring control management system according to the present invention;

FIG. 2 is an exploded view of the supervisory control management function of the present invention;

FIG. 3 is a monitoring control management data flow diagram of the present invention;

FIG. 4 is a flow chart of resource management according to the present invention;

FIG. 5 is a flow chart of resource device state collection according to the present invention;

FIG. 6 is a timing diagram of task monitoring control management according to the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood and implemented by those skilled in the art, the present invention is further described with reference to the following specific examples, which are provided for illustration only and are not intended to limit the present invention.

As shown in fig. 1, a monitoring control management system and method thereof includes: resource management, antenna monitoring, equipment monitoring, environment monitoring and task monitoring.

Monitoring, controlling and managing

(I) functional requirements

1) Has the functions of increasing, deleting, modifying and checking system resources;

2) the system has the functions of system resource state collection and state record management;

3) the system has the functions of collecting system resource logs and managing log records;

4) the system has the functions of displaying the state information and the log information of the system resources;

5) the system has a system resource alarm prompt function;

6) the lightning early warning function is realized, and the lightning early warning function is realized;

7) the system resource state information pushing interface is arranged;

8) a system resource state receiving interface is provided;

9) and the management of the operation authority of the login user is realized.

(II) Performance requirements

Table 1 performance design description table

Serial number	Performance requirements	Performance design
				1	Device for issuing command when task is executed Time delay of less than or equal to 2 seconds	The system task management achieves the equipment control corresponding to the monitoring control under the task instruction through the TCP, and sets the control The equipment is controlled in real time, and the command issuing time delay is guaranteed by using TCP communication.
2	Alarm prompt time delay is less than or equal to 5 seconds	The monitoring control monitors the state information of the equipment through real-time heartbeat, and after the equipment failure is alarmed, the state information is pushed to the system through TCP And managing tasks, and ensuring alarm prompt time by using TCP communication.
			3	Real-time data stream forwarding delay: less than or equal to 1 second	The data stream is forwarded through TCP, and an independent forwarding channel is established to ensure that the forwarding time delay of the real-time data stream is less than or equal to 1 And second.
4	Data retrieval response time: is not more than 2 seconds Ten thousand records	The database retrieval time is optimized through creating indexes, physically partitioning and the like of the database, and programs are directly dedicated to the database And the drive is used for accessing the database, so that the database retrieval response time is ensured.
			5	When the management control software receives a response Within 2 seconds or less	The system task management achieves the equipment control corresponding to the monitoring control under the task instruction through the TCP, and sets the control The equipment is controlled in real time, and the command issuing time delay is guaranteed by using TCP communication.

(III) functional decomposition

Fig. 2 is an exploded view of a monitoring control management function, which includes the following specific contents: resource management: the system resources are managed, including software/service resources and hardware resources, and the resources can be added, deleted and modified, and the IP, parameters and attributes of the resources can be set.

Antenna monitoring: providing antenna monitoring data acquisition including signal level, antenna pitching, azimuth data and the like; the antenna control management is provided, the pitching, the direction and the like of the antenna can be controlled, and the antenna guide data can be introduced to control the antenna; the antenna alarm management can manage the antenna state information and send out alarm prompts according to the antenna health degree information to indicate alarm components and specific alarm information.

Equipment monitoring: providing collection of equipment state information; providing equipment control management, and setting parameters of the equipment; the equipment alarm management can manage the equipment state information and send an alarm prompt according to the equipment alarm information to indicate the alarm equipment and the specific alarm information.

Environmental monitoring: the system comprises an environment monitoring device, a task management system and a PDU (Power distribution Unit) which are connected with the environment monitoring device, wherein the environment monitoring device is used for acquiring environment data, meteorological data (temperature, humidity, wind speed and the like) and smoke detection data of the environment monitoring device, lightning early warning management is provided, when lightning early warning occurs, the task management system is informed to suspend a task execution process, and the PDU is controlled to power off corresponding equipment or enable the PDU.

And (3) task monitoring: providing visual monitoring to the task flow and the current state of equipment in the flow, and checking the equipment and state information related to the task; and providing task log information display, including task control equipment information and parameters, fault information display and prompt in the task, and the like.

Table 2 functional decomposition description table

(IV) flow analysis

1. Monitoring and controlling management data flow

The monitoring control management data flow diagram shown in fig. 3 includes:

2) antenna control returns control feedback/status information;

4) the device control returns control feedback/status information;

2. Resource management process

As shown in fig. 4, a flow chart of resource management is shown, which includes:

1) newly adding a resource flow;

a) newly adding resources;

b) inputting information such as resource name, IP, port, type and the like;

c) and saving the resource information to a database.

2) And (3) modifying the resource flow:

a) modifying the resource information;

b) confirming whether the resource information is modified;

c) if not, returning;

d) confirming the modified resource information;

e) and submitting the modification information to the database.

3) Deleting the resource information:

a) confirming whether to delete;

b) if not, returning is deleted;

c) confirming the deleted resource information;

d) the resource data is deleted from the database.

3. Resource state information display flow

1) State collection is carried out to obtain the state of the hardware resource;

2) state collection is carried out to obtain the state of the software resource;

3) acquiring the resource state and the antenna health degree of the antenna equipment by state collection;

4) state collection is carried out to obtain the state of the small weather station;

5) state collection is carried out to obtain the state of the hardware resource;

6) matching resource information;

7) and displaying the resource state information after matching is completed.

4. Resource device state collection flow

As shown in fig. 5, a flow chart for collecting resource device status includes:

1) polling and inquiring hardware resource state information by state monitoring;

2) polling and inquiring the state information of the antenna equipment by state monitoring;

3) polling and inquiring the state information of the small meteorological station by state monitoring;

4) the hardware resource returns inquiry state information;

5) the antenna equipment returns inquiry state information;

6) the small weather station returns inquiry state information;

7) and the software resource actively reports the resource state information.

5. Task resource state monitoring process

1) The task management pushes task information to monitor the task state;

2) monitoring the state of the task resource acquires all resource state information from state collection;

3) the task resource state monitoring matches the task resources through the task information;

4) and (5) successfully matching the task resources, and returning task resource state information.

6. State push interface flow

1) State information management acquires all resource state information from state collection;

2) and the state information management timing pushes all resource state information to the Rabbit communication middleware.

7. Task monitoring control management timing

As shown in fig. 6, the timing diagram specifically includes:

1) the task management reports task state information to task monitoring;

And resource management, which can add, modify, delete and inquire resource information.

And resource state, and the resource state information can be checked.

The main tasks of the system operator are: the method comprises the steps of carrying out equipment management (including resource addition, resource modification and resource deletion) on resources, carrying out monitoring control on the state of the equipment and the like, and issuing the approved monitoring task in the externally issued service to the system task management for execution.

The details of the present invention not described in detail are prior art.

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

1. A monitoring control management system, comprising: resource management, antenna monitoring, equipment monitoring, environment monitoring and task monitoring;

the resource management comprises adding, deleting and modifying resources;

the task monitoring comprises task state monitoring and task log management.

2. The monitoring, controlling and managing system of claim 1, wherein the resource management is to manage system resources, including software/service resources and hardware resources, add, delete and modify resources, and set IP, parameters and attributes of resources.

3. The monitoring, control and management system of claim 1, wherein the antenna monitoring provides antenna monitoring data collection including signal level, antenna pitch, and azimuth data, antenna control management is provided, antenna pitch and azimuth are controlled, and antenna guidance data is imported to control the antenna; the antenna alarm management manages the antenna state information and sends out alarm prompts according to the antenna health degree information to indicate alarm components and specific alarm information.

4. The monitoring, control and management system of claim 1, wherein the plant monitoring provides collection of plant status information; providing equipment control management, and setting parameters of the equipment; the equipment alarm management manages the equipment state information and sends out an alarm prompt according to the equipment alarm information to indicate the alarm equipment and the specific alarm information.

5. The monitoring, control and management system of claim 1 wherein the environmental monitoring provides environmental data, meteorological data, smoke detection data acquisition for environmental monitoring devices, lightning early warning management, and when lightning early warning occurs, the task management is notified to suspend the task execution process, and the control PDU powers down or takes the corresponding device offline.

6. The monitoring, control and management system according to claim 1, wherein the task monitoring provides visual monitoring of the task flow and the current state of the equipment in the flow, and views the equipment and state information associated with the task; and providing task log information display, including task control equipment information and parameters, and fault information display and prompt in the task.

7. A monitoring control management method is characterized in that a monitoring control management process comprises the following processes:

s1: monitoring, controlling and managing a data flow direction process;

s2: a resource management process;

s3: resource state information display flow;

s4: resource equipment state collection flow;

s5: a task resource state monitoring process;

s6: a state pushing interface process;

s7: and monitoring, controlling and managing a time sequence flow by a task.

8. The monitoring control management method according to claim 7, wherein the monitoring control management flow data flow process comprises the following steps:

monitoring and sending a control instruction/state query to antenna control by a hardware resource;

antenna control returns control feedback/status information;

monitoring and sending a control instruction/state query to equipment control by the hardware resource;

the device control returns control feedback/status information;

the system comprises detection signal analysis and integrated display software, antenna health state monitoring equipment/antenna deformation monitoring equipment, a small meteorological station, a lightning early warning device, system dynamic visualization software and a master control and management subsystem, wherein the master control and management subsystem actively reports state information to a RabbitMQ communication middleware;

the software resource monitors all software/service state information subscribed by the RabbitMQ communication middleware;

the resource state information management acquires resource information from a database;

monitoring hardware resources and monitoring software resources, and sending all resource state information to resource state information management;

resource state information management pushes all state information to RabbitMQ communication middleware;

and the system dynamic visualization software, the master control and management subsystem subscribe all resource state information from the RabbitMQ communication middleware.

9. The monitoring control management method according to claim 7, wherein the specific time sequence flow of the monitoring control management comprises the following steps:

the task management reports task state information to task monitoring;

the task management sends a control instruction to the equipment control and receives control feedback;

the equipment control sends a control instruction to the antenna equipment and the hardware equipment and receives control feedback;

the device control returns task control feedback information to task management;

the hardware equipment reports the state information to the state monitoring equipment;

the antenna health monitoring equipment reports the health degree of the antenna to state monitoring;

the detection signal analysis and integrated display software reports the state information of the external station equipment to state monitoring;

the state monitoring pushes all state information to system visualization software;

the small-sized weather station reports weather information and equipment state information to state monitoring;

the lightning early warning device pushes lightning early warning information to task monitoring;

and (4) the task monitoring pushes thunder early warning information to task management, and the task management executes a thunder early warning strategy.

10. The monitoring control management method according to claim 7, wherein the resource management process comprises the following steps:

1) newly adding a resource flow;

adding new resources;

inputting information such as resource name, IP, port, type and the like;

saving the resource information to a database;

2) and (3) modifying the resource flow:

modifying resource information;

determining whether to modify the resource information;

if not, returning;

fourthly, confirming the modified resource information;

fifthly, submitting the modification information to a database;

3) deleting the resource information:

firstly, determining whether to delete;

if not, returning is deleted;

confirming the deleted resource information;

and fourthly, deleting the resource data from the database.