CN112948653A - Meteorological data monitoring system based on business process - Google Patents

Abstract

The invention discloses a meteorological data monitoring system based on a business process, which comprises a construction module, a business process arrangement module, a monitoring data acquisition module and a business process visualization module, wherein the construction module is in control connection with the business process arrangement module; the building module abstractly manufactures hardware components, software function blocks, node processes and the like into 3D elements based on a 3D virtualization technology to generate a 3D element library, the invention realizes the tracking and monitoring of the whole process from the equipment end operation state to data collection, then to data carding and finally to data service, all node monitoring information on each process main line is in a list, the macro condition can be summarized, the micro details can be amplified and peeped, the monitoring efficiency and the analysis capability of equipment faults and data problems are greatly improved, and the traditional monitoring mode is changed.

Description

Meteorological data monitoring system based on business process

Technical Field

The invention relates to the technical field of data monitoring, in particular to a meteorological data monitoring system based on a business process.

Background

In the past, a plurality of meteorological data monitoring systems are used for monitoring and displaying data application terminals, most of the meteorological data monitoring systems are used for realizing timeliness monitoring in the latter half process of collection, processing, storage and service, are based on 2D webpage versions or single-machine versions basically, mainly display characters and chart images, are not visual and attractive enough, and are poor in user experience effect. Because equipment manufacturers generally do not give cooperation and other technical reasons, the equipment operation state information cannot be deeply mastered, the whole process tracking and monitoring of all links from the beginning of data acquisition of the equipment end to the tail end of the application service cannot be realized, the monitoring information of the whole process of the data flowing process is incomplete and unclear, the existing data quality problem cannot be efficiently tracked and processed, and the data processing application quality and timeliness are influenced.

A national comprehensive weather information sharing platform (CIMISS) recently developed by a weather information center of the China weather bureau carries out monitoring on input and output data quantity of each link of partial flow from transmission to warehousing of weather data, but lacks monitoring on data observation and production and service and application flow, and simultaneously adopts a more traditional Html technology to realize, and has defects in various aspects such as user experience and the like; other provinces of the meteorological department also develop different timeliness monitoring systems for collecting and distributing meteorological data respectively. In the above monitoring system, even though a preliminary concept of full-flow monitoring is proposed, the monitoring of the full-flow from the data acquisition of the equipment end to the final end of the application service is not completely and truly realized, and particularly, the simulation monitoring of the full-flow of the business is not performed by using a 3D visualization technology.

Disclosure of Invention

The invention aims to provide a meteorological data monitoring system based on a business process, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a meteorological data monitoring system based on a business process comprises a construction module, a business process arrangement module, a monitoring data acquisition module and a business process visualization module, wherein the construction module is in control connection with the business process arrangement module, the business process arrangement module is in control connection with the monitoring data acquisition module, and the monitoring data acquisition module is in control connection with the business process visualization module.

Preferably, the building module abstractly manufactures hardware components, software function blocks, node processes and the like into 3D elements based on a 3D virtualization technology, and generates a 3D element library, wherein the hardware components include a network, a disk, a CPU, a memory and the like, and the software function blocks include system software, service, application software and the like.

Preferably, the business process arrangement module uses a dynamic arrangement technology to simulate the meteorological business data for arrangement.

Preferably, the monitoring data acquisition module acquires the information by adopting a probe technology timing acquisition mode or equipment self-output information.

Preferably, the business process visualization module is divided into large-screen front-end visualization and background management visualization.

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

1. the system realizes the abstraction of hardware components, software function blocks, node processes and the like of the meteorological detection equipment, generates a standardized 3D element, and completes the simulation display of the process node information by the 3D element through real-time data driving, so that the information can be obtained; the display mode and the effect are obviously superior to the traditional text and diagram display mode;

2. the system realizes the process fragmentation and generates the standardized monitoring components, thereby being capable of combining and arranging into different business processes by using a dragging method, randomly multiplexing and randomly combining component resources, and very conveniently meeting various monitoring requirements. Compared with the traditional fixed flow design, the method is more flexible and efficient;

3. the method and the system realize the tracking and monitoring of the whole process from the running state of the equipment end to the data collection, then to the data combing and finally to the data service, and all the node monitoring information on each process main line is in a list, so that the macroscopic condition can be summarized, the microscopic details can be amplified and peeped, the monitoring efficiency and the analysis capability of equipment faults and data problems are greatly improved, and the traditional monitoring mode is changed.

Drawings

FIG. 1 is a landing page diagram of the present invention;

FIG. 2 is an overview page diagram of the present invention;

FIG. 3 is a business flow diagram of radar-based data of the present invention;

FIG. 4 is a business process management interface diagram of the present invention;

FIG. 5 is a business process orchestration and monitoring index binding page diagram of the present invention;

FIG. 6 is a business process management interface diagram of the present invention;

FIG. 7 is a 3D model diagram of a weather radar transmitter unit of the present invention;

FIG. 8 is a 3D model diagram of an automated weather station apparatus of the present invention;

FIG. 9 is a 3D model diagram of an observation field of an automated weather station according to the present invention;

FIG. 10 is a system block diagram of the present invention;

FIG. 11 is a system flow diagram of the present invention;

in the figure: 1. building a module; 2. a business process arrangement module; 3. a monitoring data acquisition module; 4. and a business process visualization module.

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, 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 invention.

Referring to fig. 1-11, an embodiment of the present invention: a meteorological data monitoring system based on business process, including building module 1, business process arrangement module 2, monitoring data acquisition module 3 and business process visualization module 4, the building module 1 is connected with business process arrangement module 2 control, the building module 1 abstractly makes hardware component, software function block, nodal process, etc. into 3D component based on 3D virtualization technology, produce 3D component library, and the hardware component includes network, magnetic disc, CPU and memory, etc., the software function block includes system software and service and application software, etc., the building module 1 utilizes the general component to presume the complete correlation attribute according to its function in advance for monitoring and using; meanwhile, the management function can be carried out on the component library, the registration can be carried out on the characteristically developed components according to a certain standard, and related attribute contents can be set for the components, the business process arrangement module 2 divides the process into segments, each segment is defined as a monitoring component, and the monitoring component has the functions of completing certain monitoring and outputting monitoring index data; developing a plurality of components to establish a monitoring component library; different processes can be randomly organized according to the needs of the business process, dynamic arrangement of the business monitoring process is realized by using a monitoring assembly so as to be more suitable for actual business application, a business process arrangement module 2 is in control connection with a monitoring data acquisition module 3, the monitoring data acquisition module 3 adopts a mode of timing acquisition by a probe technology or the self output information of equipment is obtained, the business process arrangement module 2 simulates meteorological business data to be arranged by using a dynamic arrangement technology, the monitoring data acquisition module 3 acquires monitoring indexes related to the whole business process and the running state information of front-end equipment, the state information is provided by assisting of an equipment generation manufacturer, and network nodes and flow information are obtained by a mode of timing acquisition by the probe technology or the self output information of the equipment; information of various resources is stored persistently; the method comprises the steps that various collected monitoring resources are connected in series by taking a service flow number as a main line, so that the resource condition of each link on a service flow and the data exchange condition and the pressure condition before and after each link are formed, a monitoring data collection module 3 is in control connection with a service flow visualization module 4, the service flow visualization module 4 is divided into large-screen front-end visualization and background management visualization, the service flow visualization module 4 can show the summary information of all data service flows of a data center, can show and inquire the detailed service flow of each type of data or data of a certain station, and can see various types of data monitoring information, data flow direction and data exchange pressure among nodes; the corresponding 3D model is driven by the real-time monitoring information, so that information of each link, data processing, hardware use condition, software operation condition, data exchange monitoring and the like in the service flow is reflected more truly, and the actual operation condition of the whole service flow is reflected vividly, truly and timely.

The working principle is as follows: according to the invention, a meteorological data monitoring system based on a business process is established through a construction module 1, a business process arrangement module 2, a monitoring data acquisition module 3 and a business process visualization module 4, the system is divided into a large-screen front end and a background management part for specific operation, the front-end large screen is mainly used for monitoring the display content of the large screen, the functions of the part can be also suitable for the display of a common PC, but the content is relatively compact; the background management is mainly used for the functions of system component management, process arrangement, alarm management, system setting and the like, is more suitable for the display of a PC (personal computer) end, and can also be displayed on a large-screen high-resolution terminal device; the system is mainly divided into an administrator, a duty worker and general personnel, after the user right of the system is set, the system can be logged in according to specific roles, a login page diagram of the system is shown in figure 1, after logging in is completed, an overview page of meteorological data flow, meteorological data, basic resources, high-performance calculation, network connectivity, alarm analysis and the like is displayed, and the overview page diagram is shown in figure 2; in the data flow, the specific flow direction of the meteorological data is described in detail, and the set detailed information of the key indexes can be displayed at each node, the business flow chart of the radar-based data is shown in fig. 3, and meanwhile, the meteorological data business changes frequently in the business flow management, and the flows of various data are different, so that the platform needs to provide the management functions of various data flows, for example: the online management functions of adding, deleting, modifying, releasing and the like are added, a business process management interface diagram is shown in figure 4, when the business process is arranged, the online management function of arranging the actual certain type of meteorological data business process by using a monitoring element component library is mainly provided, specific monitoring indexes, alarm parameters and other information are bound to all ring nodes of the data process, the released process can be modified and released again, and a business process arrangement and monitoring index binding page diagram is shown in figure 5; managing a component library: the content of the comet-eye monitoring mainly comprises basic hardware resources, system software resources, service software resources and data key indexes, the system provides a relatively universal monitoring component in the development process, but personalized indexes can be monitored in actual service application, so that the platform provides a component registration function based on a plug-in mode, the system is convenient to be suitable for subsequent development and service application, and a monitoring component library management interface graph is shown in fig. 6; hardware 3D modeling: abstracting a 3D digital model for a transmitter component of the weather radar, wherein the model can be driven by real-time data and displays fault information, and a 3D model diagram of the transmitter component of the weather radar is shown in FIG. 7; the equipment and the observation field of the automatic weather station are abstracted into a virtual scene and virtual equipment through 3D virtualization, the equipment state information is used for driving the equipment to show the running condition of the equipment, the 3D model of the equipment of the automatic weather station is shown in a figure 8, and the 3D model of the observation field of the automatic weather station is shown in a figure 9.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides a meteorological data monitored control system based on business process, includes construction module (1), business process arrangement module (2), control data acquisition module (3) and the visual module of business process (4), its characterized in that: the construction module (1) is in control connection with the business process arrangement module (2), the business process arrangement module (2) is in control connection with the monitoring data acquisition module (3), and the monitoring data acquisition module (3) is in control connection with the business process visualization module (4).

2. The weather data monitoring system based on business process as claimed in claim 1, wherein: the building module (1) abstractly manufactures hardware components, software function blocks, node processes and the like into 3D elements based on a 3D virtualization technology, a 3D element library is generated, the hardware components comprise networks, disks, CPUs (central processing units), memories and the like, and the software function blocks comprise system software, service software, application software and the like.

3. The weather data monitoring system based on business process as claimed in claim 1, wherein: the business process arrangement module (2) simulates meteorological business data to carry out arrangement by utilizing a dynamic arrangement technology.

4. The weather data monitoring system based on business process as claimed in claim 1, wherein: the monitoring data acquisition module (3) acquires the output information of the equipment by adopting a probe technology timing acquisition mode or a probe technology.

5. The weather data monitoring system based on business process as claimed in claim 1, wherein: the business process visualization module (4) is divided into large-screen front-end visualization and background management visualization.

Images