阅读说明：本技术 一种基于流程自动化处理的快速制单系统及方法 (Rapid order making system and method based on process automation processing ) 是由 夏学智 费丹雄 张云 何欣芹 黄青 田源 李婷婷 刘宜博 于 2021-06-24 设计创作，主要内容包括：本发明涉及一种基于流程自动化处理的快速制单系统及方法,所述快速制单系统包括数据采集模块、数据无线通讯模块、数据处理层、云端无线通讯模块和业务终端,其中,所述数据采集模块获取待处理原单图片,并通过数据无线通讯模块上传至数据处理层,所述数据处理层对所述待处理原单图片进行文字识别,自动制作完成业务表单,记录制单数据状态,并通过云端无线通讯模块向业务终端反馈表单状态。与现有技术相比,本发明具有提高效率等优点。(The invention relates to a rapid document making system and a rapid document making method based on flow automation processing, wherein the rapid document making system comprises a data acquisition module, a data wireless communication module, a data processing layer, a cloud wireless communication module and a service terminal, wherein the data acquisition module acquires an original single picture to be processed and uploads the original single picture to the data processing layer through the data wireless communication module, the data processing layer performs character recognition on the original single picture to be processed, a service form is automatically made, a document making data state is recorded, and the document making state is fed back to the service terminal through the cloud wireless communication module. Compared with the prior art, the invention has the advantages of improving the efficiency and the like.)

1. A rapid order making system based on flow automation processing is characterized by comprising a data acquisition module (1), a data wireless communication module (2), a data processing layer (3), a cloud wireless communication module (4) and a service terminal (5), wherein,

the data acquisition module (1) acquires an original single picture to be processed and uploads the original single picture to the data processing layer (3) through the data wireless communication module (2),

the data processing layer (3) performs character recognition on the original single picture to be processed, automatically makes a service form, records a form making data state, and feeds back the form state to a service terminal (5) through the cloud wireless communication module (4).

2. The process automation process-based rapid order making system according to claim 1, characterized in that the data acquisition module (1) comprises a camera or a smartphone.

3. The rapid order-making system based on process automation process as claimed in claim 1, characterized in that the data processing layer (3) is connected with a large database (6) as the basis of analysis.

4. The rapid order-making system based on process automation process as claimed in claim 1, characterized in that the data processing layer (3) comprises:

an OCR recognition module (31) for receiving the original single picture to be processed and extracting key feature information by adopting an OCR recognition technology;

a form making module (32) for automatically making a blank business form based on the key characteristic information;

the data automatic filling module (33) is used for automatically filling corresponding data in the blank business form based on the key characteristic information to obtain a final business form;

the data state acquisition module (36) monitors the form manufacturing process in real time and generates a form manufacturing data state;

a central processing center (34) for obtaining the final service form and the corresponding form making data state;

a log file generation module (311) for generating a log file based on the billing data state;

and the sending module (310) feeds the log file back to the service terminal (5) through the cloud wireless communication module (4).

5. The process automation processing-based rapid order making system according to claim 4, wherein the key characteristic information includes power units, numbers and common characters.

6. The rapid order system based on process automation as claimed in claim 4, characterized in that the sending module (310) is a mail sending module.

7. The system for rapid billing based on process automation of claim 4, wherein the data processing layer (3) further comprises a form addition module (37) in bidirectional communication with the central processing center (34).

8. The process automation process-based rapid order making system according to claim 4, characterized in that the data processing layer (3) further comprises a data analysis unit (38) in bidirectional communication with a central processing center (34) for performing fault analysis and operational status analysis according to the order making data status.

9. The process automation processing-based rapid order making system according to claim 1, wherein the business form comprises a device-removable log form or a meter-reading form.

10. A rapid billing method using the rapid billing system based on process automation processing according to claim 1, characterized by comprising the steps of:

s1, data acquisition: acquiring an original single picture to be processed;

s2, data processing: identifying the original single picture to be processed, extracting key characteristic information, automatically making a blank business form based on the key characteristic information, automatically filling corresponding data in the blank business form, acquiring a final business form, and recording a single data making state;

s3, data feedback: and forming a log file based on the form making data state, and sending a feedback message to service personnel.

Technical Field

The invention relates to the technical field of process automation, in particular to a rapid order making system and method based on process automation processing.

Background

In a conventional workflow automation technology tool, an action list of an automation task is generated by a programmer, and an internal application program interface or a dedicated script language is used as an interface with a background system, and the robot flow automation monitors the work performed by a Graphical User Interface (GUI) in application software by a user, and automatically repeats the work directly on the GUI, thereby reducing the obstruction of product automation.

At present, the power grid marketing system still depends on manual work to generate various documents, conditions such as automatic input of a large number of business hall residential electricity application, periodic rotation batch opening, electric energy meter batch electric energy data input exist, a large amount of efforts of workers are consumed by careful management requirements, mistakes and omissions occur in the management process, intelligent and automatic technologies are urgently needed to be adopted, and the efficiency of a single making link of an electric power company is improved.

Disclosure of Invention

The present invention is directed to overcoming the above-mentioned drawbacks of the prior art, and providing a system and a method for rapidly making an order based on process automation processing, which improve efficiency.

The purpose of the invention can be realized by the following technical scheme:

a rapid order making system based on flow automation processing comprises a data acquisition module, a data wireless communication module, a data processing layer, a cloud wireless communication module and a service terminal, wherein,

the data acquisition module acquires an original single picture to be processed and uploads the original single picture to the data processing layer through the data wireless communication module,

the data processing layer carries out character recognition on the original single picture to be processed, automatically makes a service form, records the form data state, and feeds back the form state to a service terminal through the cloud wireless communication module.

Further, the data acquisition module comprises an image acquisition unit for acquiring the original single picture to be processed.

Further, the image acquisition unit comprises a camera or a smartphone.

Further, the data processing layer is connected with a large database which is used as an analysis basis.

Further, the data processing layer includes:

the OCR recognition module is used for receiving the original single picture to be processed and extracting key characteristic information by adopting an OCR recognition technology;

the order making module is used for automatically making a blank business form based on the key characteristic information;

the data automatic filling module is used for automatically filling corresponding data in the blank business form based on the key characteristic information to obtain a final business form;

the data state acquisition module monitors the form manufacturing process in real time and generates a form manufacturing data state;

the central processing center acquires the final service form and the corresponding form making data state;

the log file generation module is used for generating a log file based on the form data state;

and the sending module feeds the log file back to the service terminal through the cloud wireless communication module.

Further, the key feature information includes power units, numbers, and common characters.

Further, the sending module is a mail sending module.

Further, the data processing layer also comprises a form adding module which is in bidirectional communication with the central processing center.

Further, the data processing layer further comprises a data analysis unit in bidirectional communication with the central processing center, and the data analysis unit is used for executing fault analysis and running state analysis according to the state of the billing data.

Further, the service form comprises an equipment-removed recording form or a meter reading form.

The invention also provides a rapid order making method adopting the rapid order making system based on the process automation processing, which comprises the following steps:

s1, data acquisition: acquiring an original single picture to be processed;

s2, data processing: identifying the original single picture to be processed, extracting key characteristic information, automatically making a blank business form based on the key characteristic information, automatically filling corresponding data in the blank business form, acquiring a final business form, and recording a single data making state;

s3, data feedback: and forming a log file based on the form making data state, and sending a feedback message to service personnel.

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

1) the invention realizes the quick action on the business form based on the process automation technology and the automatic identification technology, and effectively improves the business processing speed and quality of the power grid marketing system.

2) The method can quickly identify the form photo content data in an OCR mode, convert the form photo content data into effective data through a logic algorithm, and then identify the automatic form making scene of the robot by applying the related technology of the RPA in the automatic operation of a CS framework system, so that the current situation of slow manual processing is solved.

3) The identification of the invention comprises electric power units, numbers, common characters and the like, improves the accuracy of handwritten information identification, bases on paper information digitization, and has the identification accuracy of over 90 percent on electric power business tables.

Drawings

FIG. 1 is a schematic diagram of the framework of the present invention;

FIG. 2 is a schematic diagram of the present invention;

FIG. 3 is a schematic diagram of a data collection model according to the present invention;

FIG. 4 is a schematic flow diagram of the process of the present invention;

the system comprises a 1-data acquisition module, a 11-image acquisition unit, a 2-data wireless communication module, a 3-data processing layer, a 31-OCR recognition module, a 311-file data scanning unit, a 312-image file analysis unit, a 313-data extraction unit, a 314-data conversion unit, a 315-data transmission unit, a 32-form making module, a 33-data automatic filling module, a 34-central processing center, a 35-data state filling module, a 36-data state acquisition module, a 37-form adding module, a 38-data analysis module, a 381-fault analysis unit, a 382-operation state analysis unit, a 39-data feedback module, a 310-sending module, a 311-log file generation module, a 4-cloud wireless communication module, a, 5-service terminal, 6-big database.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1-3, this embodiment provides a quick form making system based on flow automation processing, including data acquisition module 1, data wireless communication module 2, data processing layer 3, cloud wireless communication module 4 and service terminal 5, wherein, data acquisition module 1 obtains the original single picture of treating processing, and upload to data processing layer 3 through data wireless communication module 2, data processing layer 3 carries out character recognition to the original single picture of treating processing, automatically, make and accomplish the service form, including equipment tear back record table or meter reading form etc. record form making data state, and feed back form state to service terminal 5 through cloud wireless communication module 4. The data acquisition unit 1, the data wireless communication module 2, the data processing layer 3, the cloud wireless communication module 4 and the service terminal 5 are sequentially wirelessly connected in a two-way manner.

As shown in fig. 3, the data acquisition module 1 includes an image acquisition unit 11 for acquiring an original single picture to be processed. In this embodiment, the image capturing unit 11 includes a camera or a smartphone.

As shown in fig. 2, the data processing layer 3 includes an OCR recognition module 31, a document making module 32, an automatic data filling module 33, a data state obtaining module 36, a central processing center 34, a log file generating module 311, and a sending module 310, where the OCR recognition module 31 receives an original document image to be processed, and extracts key feature information including power units, numbers, common characters, and the like by using an OCR recognition technology; the form making module 32 automatically makes a blank business form based on the key feature information; the data automatic filling module 33 automatically fills corresponding data in the blank service form based on the key characteristic information to obtain a final service form; the data state acquisition module 36 monitors the form making process in real time, generates a form making data state, and transmits the form making data state to the central processing center 34 through the data state filling module 35; the central processing center 34 obtains the final service form and the corresponding form making data state; the log file generating module 311 generates a log file based on the form data state, and transmits the log file to the transmitting module 310 through the data feedback module 39; the sending module 310 feeds the log file back to the service terminal 5 through the cloud wireless communication module 4. In this embodiment, the sending module 310 is a mail sending module.

The OCR recognition module 31 includes a document scanning unit 311, an image document analyzing unit 312, a data extracting unit 313, a data converting unit 314, and a data transmitting unit 315, where the document scanning unit 311 scans a picture, the image document analyzing unit 312 analyzes the scanned data, the data extracting unit 313 extracts key information after analysis, performs format conversion through the data converting unit 314, and transmits the converted data to the document making module 32 through the data transmitting unit 315.

In a preferred embodiment, the data processing layer 3 is connected with a big database 6 as a basis for analysis, and the big database 6 is connected with the wireless data processing layer 3 in a bidirectional way.

In a preferred further embodiment, the data processing layer 3 further comprises a form addition module 37 in bidirectional communication with the central processing center 34 for continuing the input of new input.

In a preferred further embodiment, the data processing layer 3 further comprises a data analysis unit 38 in bidirectional communication with the central processing center 34 for performing fault analysis and operational state analysis based on the singled data state, comprising a fault analysis unit 381 and an operational state analysis unit 382.

As shown in fig. 4, the rapid order making method of the rapid order making system based on the process automation processing includes the following steps:

s1, data acquisition: acquiring an original single picture to be processed;

s2, data processing: identifying an original single picture to be processed, extracting key characteristic information, automatically making a blank business form based on the key characteristic information, automatically filling corresponding data in the blank business form, acquiring a final business form, and recording a single data making state;

s3, data feedback: and forming a log file based on the form data state, and sending a feedback message to service personnel.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.