CN115426239A - Business support information processing mode and low code development system - Google Patents

Abstract

The invention belongs to the technical field of computers, and relates to a business support information processing mode and low code development system, which comprises an information acquisition module, a code generation module and a code generation module, wherein the information acquisition module is used for identifying and acquiring different types of business support information; the information circulation module is used for extracting information and distributing the information; the information processing module is used for automatically identifying the service supporting information and selecting different methods for processing; the information storage module is used for storing different service support information after classifying the different service support information; the result display module is used for displaying the generated service support information; the service supporting information configuration module is used for classifying, storing and inquiring the related configurations of different service supporting information; the API module is used for communication among the modules; and the front-end visual configuration module is used for customizing the form field and the business processing flow. The system can flexibly set the relevant configuration and the business processing flow of the business support information, and improves the reusability and the expandability of the system.

Description

Business support information processing mode and low code development system

Technical Field

The invention belongs to the technical field of computers, and relates to a business support information processing mode and a low-code development system.

Background

The service support information refers to information such as events, alarms and logs in the system, namely information generated by providing environment support for a certain service system. Although the business support information is divided into a plurality of modules with different names when being processed, the business support information is very similar in flow. These modules all perform operations such as listening for information, receiving information, transferring information, processing information, storing information, etc. Except for the difference of partial core codes, most of other processing flows of the processing of the business support information are the same, and if different business support information is processed respectively, the waste of resources such as manpower, material resources and the like can be caused. With the expansion of the service system function, the types and the number of the service support information generated in the system can be increased. If the developer needs to manually configure the added service information types each time, problems of untimely system updating, waste of human resources and the like can be caused.

Low code development refers to a development system that can quickly generate an application without coding or with a small amount of code. The method for developing the application program through visualization enables developers with different experience levels to use a dragging component and model-driven logic to create a webpage and a mobile application program through a graphical user interface.

Disclosure of Invention

The invention aims to overcome the processing defects and design a set of universal and reusable service support information processing mode and a low-code development system so as to realize the integration of monitoring, receiving, transferring, converting and storing in the process of processing the service support information such as events, alarms, logs and the like. The method has the advantages of improving code reusability and system expandability, providing a visual configuration panel, being simple to operate, and reducing resource costs of manpower, material resources and the like.

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

a business support information processing low code system comprises an information acquisition module, an information transfer module, an information processing module, an information storage module and a result display module. The information circulation system comprises an information acquisition module, an information processing module, an information storage module and a result display module, wherein the information acquisition module is connected with the information circulation module, the information circulation module is connected with the information acquisition module, the information processing module, the information storage module and the result display module, the information processing module is connected with the information circulation module, the information storage module is connected with the information circulation module, and the result display module is connected with the information circulation module.

The invention is further configured such that the information acquisition module comprises an information identification unit and an information acquisition unit. The information identification unit is used for identifying different types of service support information, and the information acquisition unit is used for acquiring different types of service support information.

The invention is further configured such that the information transfer module comprises an information extraction unit and an information distribution unit. The information extraction unit includes an input port number and a source address, and the information distribution unit includes an output port number and a destination address. The information extraction unit extracts the collected information, and the information distribution unit distributes the extracted information to different modules of the system, including an information processing module, an information storage module and the like.

The invention is further arranged in that the information processing module comprises a port mapping unit, an information identification unit and an information processing unit. The information processing unit is used for automatically selecting different processing methods to correspondingly process the identified service supporting information. The information processing unit includes an input data set and an output data set, and the output data set is different from the input data set.

The invention is further arranged in that the information storage module comprises an information classification unit and an information storage unit. The information classification unit is used for classifying different service support information, and the information storage unit is used for storing different service support information.

The invention is further configured such that the result display module comprises an image display unit, a sound display unit and a text display unit. The image display unit is used for displaying node information for generating the service support information, the sound display unit is used for playing the content related to the service support information, and the text display unit is used for describing the image content and the sound content in detail. The node information includes a source address IP, a port number, a device, and a geographical location.

The beneficial effects are that:

the system integrates the business support information processing flow, and the information identification unit of the information acquisition module automatically identifies different types of business support information and transmits the business support information to the information processing module after the business support information is acquired by the information acquisition unit; the information identification unit of the information processing module automatically identifies different types of service support information, and then the information processing unit automatically selects a corresponding processing scheme to perform corresponding processing on the service support information; and the information storage module performs corresponding storage after classifying and identifying the service support information to be stored.

The processing process of the service support information processing system is iterative, and the information circulation module, the information processing module and the information storage module can be iterated mutually.

Further, the system further comprises: the system comprises a service support information configuration module, an API module and a front-end visual configuration module. The service supporting information configuration module is connected with the information acquisition module, the information processing module, the information storage module and the front-end visual configuration module, the front-end visual configuration module is connected with the API module, and the API module is connected with the service supporting information configuration module and the front-end visual configuration module.

The invention is further configured that the service support information configuration module comprises a service support information configuration and classification unit, a service support information configuration and storage unit and a service support information configuration and query unit. The service supporting information configuration and classification unit is used for classifying the related configurations of different service supporting information, the service supporting information configuration and storage unit is used for storing the related configurations of different service supporting information, and the service supporting information configuration and query unit is used for querying the related configurations of different service supporting information.

The invention is further arranged such that the API module is used for inter-module communication.

The invention is further configured that the front-end visual configuration module comprises a form engine unit and a process engine unit. The form engine unit is used for customizing the form field, and the process engine unit is used for customizing the business processing process.

The beneficial effects are that:

when a system adds certain novel service support information or service support information processing scheme, only a visualization module is configured at the front end for corresponding addition; form fields and business processing flows can be customized, and code writing is not involved.

A business support information processing low code system includes a configuration operation of business support information and a processing operation of business support information.

The configuration operation of the service support information comprises the following steps:

firstly, customizing a form field and a service processing flow by a front-end visual configuration module, then checking whether the customized information meets the specification, if so, carrying out next processing, and if not, re-customizing the form field and the processing flow, and then judging the form field and the processing flow until the specification is met;

a service supporting information configuration classifying unit of the service supporting information configuration module receives and classifies the configuration parameters transmitted by the front-end visual configuration module, and then the configuration parameters are transferred to a service supporting information configuration storage unit for corresponding storage;

the operation of processing the service support information comprises the following steps:

t1: an information identification unit of the information acquisition module reads parameters of the service support information configuration module so as to identify different types of service support information and acquire the service support information through the information acquisition unit;

t2: judging whether the next processing is needed, if so, entering an information processing module, and entering a step T5;

t3: judging whether the storage is needed, if the storage is needed, entering an information storage module, and entering a step T6;

t4: judging whether the processing and the storage are not needed or not, entering a result display module, and entering a step T7;

t5: an information identification unit of the information processing module reads a service support information parameter of a service support information configuration module, identifies the type of the service support information and then delivers the service support information to the information processing unit, and the information processing unit receives an input data set, automatically selects a corresponding processing method, processes the service information and then outputs the processed service information;

t6: an information classification unit of the information storage module reads service support information parameters of a service support information configuration module to identify service support information types and stores the service support information types in a classification manner;

t7: and the result display module displays the service support information in the forms of images, sounds and characters.

And after the processing in the step T5 is finished, the T3 judgment can be continued, and after the processing in the step T6 is finished, the T2 judgment can be continued until the service support information result is displayed.

The invention has the beneficial effects that:

in conclusion, the business support information processing low-code system integrates the processing process of business support information, and simultaneously uniformly encapsulates the information acquisition module, the information circulation module, the information processing module, the information storage module, the result display module, the business support information configuration module, the API module and the front-end visualization module, thereby improving code reusability and expandability; the visual operation panel is provided, the form fields and the business process are customized, code compiling is not involved, the business requirements can be flexibly met, the operation difficulty is reduced, and waste of resources such as manpower and material resources is reduced.

Drawings

FIG. 1 is a general schematic diagram of a business support information processing low code system according to the present invention;

fig. 2 is a schematic structural diagram of a service support information processing part proposed in the present invention;

fig. 3 is a schematic flow chart of a service support information configuration part proposed by the present invention;

FIG. 4 is a flow diagram of a business support information processing portion of the present invention;

Detailed Description

The present invention is described in further detail below with reference to the attached drawing figures.

Referring to fig. 1, a service supporting information processing low code system includes two parts of service supporting information configuration and service supporting information processing. The front-end visualization module and the service support information processing module are communicated with the service support information configuration module through the API module.

Referring to fig. 1, the service support information configuration module includes a service support information configuration classification unit, a service support information configuration storage unit, and a service support information configuration query unit, and the front-end visualization configuration module includes a form engine unit and a process engine unit.

Referring to fig. 1 and 2, the service support information processing process includes an information acquisition module, an information transfer module, an information processing module, an information storage module, and a result display module. The information circulation module can be connected with the information circulation module, the information circulation module can be connected with the information collection module, the information processing module, the information storage module and the result display module, the information processing module can be connected with the information circulation module, the information storage module can be connected with the information circulation module, and the result display module can be connected with the information circulation module.

Referring to fig. 1, the information acquisition module includes an information recognition unit and an information acquisition unit. The information identification unit is used for identifying different types of service support information, and the information acquisition unit is used for acquiring different types of service support information.

Referring to fig. 1, the information circulation module includes an information extraction unit and an information distribution unit. The information extraction unit includes an input port number and a source address, and the information distribution unit includes an output port number and a destination address. The information extraction unit extracts the acquired information, and the information distribution unit distributes the extracted information to different modules of the system, including an information processing module, an information storage module and the like.

Referring to fig. 1, the information processing module includes a port mapping unit, an information identifying unit, and an information processing unit. The information processing unit is used for automatically selecting different processing methods to correspondingly process the identified service supporting information. The information processing unit includes an input data set and an output data set, and the output data set is different from the input data set.

Referring to fig. 1, the information storage module includes an information classification unit and an information storage unit. The information classification unit is used for classifying different service support information, and the information storage unit is used for storing different service support information.

Referring to fig. 1, the result display module includes an image display unit, a sound display unit, and a text display unit. The image display unit is used for displaying node information for generating the service support information, the sound display unit is used for playing the content related to the service support information, and the text display unit is used for describing the image content and the sound content in detail. The node information includes a source address IP, a port number, a device, and a geographical location.

Referring to fig. 3 and 4, a service support information processing low code system includes a configuration operation of service support information and a processing operation of service support information.

The configuration operation of the service support information comprises the following steps:

firstly, customizing a form field and a service processing flow by a front-end visual configuration module, then checking whether the customized information meets the specification, if so, carrying out next processing, and if not, re-customizing the form field and the processing flow, and then judging the form field and the processing flow until the specification is met;

a service support information configuration classifying unit of the service support information configuration module receives and classifies the configuration parameters transmitted by the front-end visual configuration module, and then the configuration parameters are sent to a service support information configuration storage unit for corresponding storage;

the operation of processing the service support information comprises the following steps:

t1: an information identification unit of the information acquisition module reads parameters of the business support information configuration module so as to identify different types of business support information, and the business support information is acquired through the information acquisition unit;

t2: judging whether the next processing is needed, if so, entering an information processing module, and entering a step T5;

t3: judging whether the storage is needed, if the storage is needed, entering an information storage module, and entering a step T6;

t4: judging whether the processing and the storage are not needed or not, entering a result display module, and entering a step T7;

t5: an information identification unit of the information processing module reads a service support information parameter of a service support information configuration module, identifies the type of the service support information and then delivers the service support information to the information processing unit, and the information processing unit receives an input data set, automatically selects a corresponding processing method, processes the service information and then outputs the processed service information;

t6: an information classification unit of the information storage module reads service support information parameters of a service support information configuration module to identify service support information types and stores the service support information types in a classification manner;

t7: and the result display module displays the service support information in the forms of images, sounds and characters.

And after the processing in the step T5 is finished, the T3 judgment can be continued, and after the processing in the step T6 is finished, the T2 judgment can be continued until the service support information result is displayed.

Taking an alarm information processing flow as an example:

form fields are customized through a form engine unit of a front-end visual configuration module, and the form fields comprise alarm information structures, alarm filtering parameters, alarm filtering algorithms and alarm filtering interface implementation codes, wherein the alarm information structures comprise alarm time, alarm equipment, alarm states, alarm types and alarm levels and are used for identifying alarm information; the alarm compression parameters comprise the percentage of the alarm quantity in the total alarm quantity, the alarm duration, the alarm influence percentage and the like, and are used for changing the alarm compression effect; the alarm filtering algorithm comprises options such as an AFA filtering algorithm and the like, and is used for changing a method for alarm filtering; the alarm filtering interface implementation code is used for adding a new alarm filtering algorithm;

the business process is customized through a process engine unit of a front-end visual configuration module, and the processing process of the alarm information comprises alarm acquisition, alarm transfer, alarm processing, alarm transfer, alarm storage, alarm transfer, alarm processing, alarm transfer and alarm display. Wherein, an input port number, a source address, an output port number and a destination address are assigned in an alarm transfer link to transfer alarm information;

a service supporting information configuration classifying unit of the service supporting information configuration module receives and classifies the alarm information configuration parameters, and then the alarm information configuration parameters are transferred to a storage unit for corresponding storage;

the information identification unit of the information acquisition module identifies alarm information, acquires alarms of communication, environment, equipment and the like, then sends the alarms to the information acquisition unit to acquire the alarm information, then enters the information processing module through the information circulation module, the information identification unit of the information processing module identifies the alarm information and then sends the alarm information to the information processing unit, the information processing unit receives an alarm input data set, reads alarm information configuration information, selects a corresponding processing method and outputs the processed alarm information; then, the alarm information enters an information storage module through an information circulation link, and an information classification unit of the information storage module identifies and stores the alarm information; then the alarm information enters the information processing module through the information transfer link, the identification unit of the information processing module identifies the alarm information and formats the alarm information, and then the alarm information is sent to the result display module through the information transfer module to be displayed correspondingly.

Taking the event information processing flow as an example:

the method comprises the steps that a form field is customized through a form engine unit of a front-end visual configuration module and comprises an event information structure, an event recognition algorithm parameter, an event recognition algorithm and an event recognition interface implementation code, wherein the event information structure comprises event time, an event place, an event type, original data and filtering data and is used for recognizing event information; the event recognition algorithm parameters comprise a rectification average value, a standard deviation, a root mean square, a kurtosis, a skewness factor, a wave form factor and the like, and are used for changing the event recognition effect; the event recognition algorithm comprises options such as a support vector machine, dynamic time warping, a cyclic neural network and a convolutional neural network, and is used for changing the algorithm for event recognition; the event recognition interface implementation code is used for adding a new event recognition algorithm;

the business process is customized through a process engine unit of the front-end visual configuration module, and the processing process of the event information comprises event collection, event circulation, event processing, event circulation, event storage, event circulation, event processing, event circulation and event display. Wherein, an input port number, a source address, an output port number and a destination address are appointed in an event circulation link to circulate event information;

a service supporting information configuration classifying unit of the service supporting information configuration module receives and classifies the event information configuration parameters, and then the event information configuration parameters are transferred to a storage unit for corresponding storage;

an information identification unit of the information acquisition module identifies event information, acquires the event information, then sends the event information to the information acquisition unit for acquisition, then enters the information processing module through the information circulation module, the information identification unit of the information processing module identifies the event information and then sends the event information to the information processing unit, the information processing unit receives an event input data set, reads event information configuration information, selects a corresponding identification algorithm, and outputs the processed event information; then, the information enters an information storage module through an information circulation link, and an information classification unit of the information storage module identifies and stores the event information; then, the event information is sent to the information processing module through the information circulation link, the identification unit of the information processing module identifies the event information and formats the event information, and then the event information is sent to the result display module through the information circulation module to be correspondingly displayed.

Taking the log information processing flow as an example:

the method comprises the steps that form fields are customized through a form engine unit of a front-end visual configuration module, and the form fields comprise a log information structure, wherein the log information structure comprises log time, a log operator and a log module and is used for identifying log information;

the service process is customized through a process engine unit of a front-end visual configuration module, and the log information processing process comprises log collection, log circulation, log processing, log circulation, log storage, log circulation, log processing, log circulation and log display. Wherein, appointing an input port number, a source address, an output port number and a destination address in a log circulation link to circulate event information;

a service supporting information configuration classifying unit of the service supporting information configuration module receives and classifies the log information configuration parameters, and then the log information configuration parameters are transferred to a storage unit for corresponding storage;

the information identification unit of the information acquisition module identifies log information, acquires the log information, then transfers the log information to the information acquisition unit to acquire event information, then enters the information processing module through the information circulation module, the information identification unit of the information processing module identifies the log information and then transfers the log information to the information processing unit, the information processing unit receives a log input data set, reads log information configuration information, selects a corresponding processing method and outputs the processed log information; then, the log information enters an information storage module through an information circulation link, and an information classification unit of the information storage module identifies and stores the log information; then, the log information is sent to an information processing module through an information circulation link, the log information is formatted after being identified by an identification unit of the information processing module, and then the log information is sent to a result display module through the information circulation module to be correspondingly displayed.

Claims (10)

1. A business support information processing low-code system is characterized by comprising an information acquisition module, an information transfer module, an information processing module, an information storage module and a result display module. The information circulation system comprises an information acquisition module, an information processing module, an information storage module and a result display module, wherein the information acquisition module is connected with the information circulation module, the information circulation module is connected with the information acquisition module, the information processing module, the information storage module and the result display module, the information processing module is connected with the information circulation module, the information storage module is connected with the information circulation module, and the result display module is connected with the information circulation module.

2. The business support information processing low code system of claim 1, wherein the information collecting module comprises an information identifying unit and an information collecting unit. The information identification unit is used for identifying different types of service support information, and the information acquisition unit is used for acquiring different types of service support information. The information transfer module comprises an information extraction unit and an information distribution unit. The information extraction unit includes an input port number and a source address, and the information distribution unit includes an output port number and a destination address. The information extraction unit extracts the collected information, and the information distribution unit distributes the extracted information to different modules of the system, including an information processing module, an information storage module and the like.

3. The service supporting information handling low code system of claim 1, wherein the information handling module comprises a port mapping unit, an information identification unit and an information handling unit. The information processing unit is used for automatically selecting different processing methods to correspondingly process the identified service supporting information. The information processing unit includes an input data set and an output data set, and the output data set is different from the input data set.

4. The business support information handling low code system of claim 1, wherein the information storage module comprises an information classification unit and an information storage unit. The information classification unit is used for classifying different service support information, and the information storage unit is used for storing different service support information.

5. The business support information handling low code system of claim 1, wherein the results display module comprises an image display unit, a sound display unit and a text display unit. The image display unit is used for displaying node information for generating the service support information, the sound display unit is used for playing the content related to the service support information, and the text display unit is used for describing the image content and the sound content in detail. The node information includes a source address IP, a port number, a device, and a geographical location.

6. A business support information handling low code system, further comprising: the system comprises a service support information configuration module, an API module and a front-end visual configuration module. The service supporting information configuration module is connected with the information acquisition module, the information processing module, the information storage module and the front-end visual configuration module, the front-end visual configuration module is connected with the API module, the API module is connected with the service supporting information configuration module and the front-end visual configuration module, and the API module is used for communication among the modules.

7. The business support information processing low-code system of claim 6, wherein the front-end visualization configuration module comprises a form engine unit and a flow engine unit. The form engine unit is used for customizing the form field, and the process engine unit is used for customizing the business processing process.

8. The business support information processing low code system of claim 6, wherein the system comprises business support information configuration operations and business support information processing operations.

9. Service support information configuration operation of the service support information handling low code system according to claims 6-8, characterized in that it comprises the following steps:

s1: firstly, customizing a form field and a service processing flow by a front-end visual configuration module, then checking whether the customized information meets the specification, if so, carrying out next processing, otherwise, re-customizing the form field and the processing flow, and then judging the form field and the processing flow until the form field and the service processing flow meet the specification;

s2: and a service supporting information configuration classifying unit of the service supporting information configuration module receives and classifies the configuration parameters transmitted by the front-end visual configuration module, and then the configuration parameters are handed to a service supporting information configuration storage unit for corresponding storage.

10. Service support information handling operation of a service support information handling low code system according to claims 1-5 and claim 8, characterized in that it comprises the steps of:

t1: an information identification unit of the information acquisition module reads parameters of the service support information configuration module so as to identify different types of service support information and acquire the service support information through the information acquisition unit;

t2: judging whether the next processing is needed, if so, entering an information processing module, and entering a step T5;

t3: judging whether the storage is needed, if the storage is needed, entering an information storage module, and entering a step T6;

t4: judging whether the processing and the storage are not needed or not, entering a result display module, and entering a step T7;

t5: an information identification unit of the information processing module reads a service support information parameter identification service support information type of a service support information configuration module and then delivers the service support information type to the information processing unit, and the information processing unit receives an input data set, automatically selects a corresponding processing method, processes and outputs service information;

t6: an information classification unit of the information storage module reads service support information parameters of a service support information configuration module to identify service support information types and stores the service support information types in a classification manner;

t7: and the result display module displays the service support information in the forms of images, sounds and characters.

And after the processing in the step T5 is finished, the T3 judgment can be continued, and after the processing in the step T6 is finished, the T2 judgment can be continued until the service support information result is displayed.

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