CN115031680B - Long oil and gas pipeline data monitoring and analyzing system based on Internet - Google Patents

Abstract

The invention discloses a long oil and gas pipeline data monitoring and analyzing system based on the Internet, which relates to the technical field of oil and gas pipeline data monitoring and is used for solving the problems that the existing long oil and gas pipeline data monitoring cannot monitor an oil and gas pipeline more comprehensively, so that deformation of the oil and gas pipeline cannot be monitored in time, leakage occurs in the long oil and gas pipeline and the like; the system comprises a server and at least one data acquisition end which is connected with the server through internet communication, wherein the data acquisition end is arranged on a long oil and gas transmission pipeline and is used for acquiring pipeline information of the long oil and gas transmission pipeline and transmitting the pipeline information to the server; according to the invention, the data acquisition end comprehensively acquires the pipeline information of the long oil and gas pipeline, and then the data analysis module analyzes the pipeline information to obtain a processing result, so that abnormal structure monitoring is performed, the deformation problem of the long oil and gas pipeline can be found in time, and corresponding operation is performed.

Description

Long oil and gas pipeline data monitoring and analyzing system based on Internet

Technical Field

The invention relates to the technical field of oil and gas pipeline data monitoring, in particular to a long oil and gas pipeline data monitoring analysis system based on the Internet.

Background

Long oil and gas transmission pipelines become a main carrier for energy transportation, so that the operation safety of the long oil and gas transmission pipelines is important; the operation of the Internet and the oil and gas pipeline industry is a trend of future development, so that oil and gas pipeline enterprises can be better supervised;

in the long oil and gas pipeline data monitoring process, the oil and gas pipeline cannot be monitored more comprehensively, so that the deformation of the oil and gas pipeline cannot be monitored in time, and the problems of leakage of the long oil and gas pipeline and the like occur.

Disclosure of Invention

The invention aims to solve the problems that the deformation of an oil gas pipeline cannot be timely monitored and leakage occurs in the long oil and gas pipeline due to the fact that the oil gas pipeline cannot be monitored more comprehensively in the existing long oil and gas pipeline data monitoring, and provides an Internet-based long oil and gas pipeline data monitoring and analyzing system.

The aim of the invention can be achieved by the following technical scheme: the long oil and gas pipeline data monitoring and analyzing system based on the Internet comprises a server and at least one data acquisition end which is connected with the server through the Internet in a communication way, wherein the data acquisition end is arranged on a long oil and gas pipeline and is used for acquiring pipeline information of the long oil and gas pipeline and transmitting the pipeline information to the server; the server is characterized by comprising a data receiving module, a database, a data analysis module and a monitoring display module;

the data receiving module is used for receiving the pipeline information sent by the data acquisition end and sending the pipeline information to the database; the database is used for storing pipeline information; the pipeline information comprises a position, corresponding acquisition data and a time stamp, wherein the acquisition data comprises acquired category names and acquisition contents corresponding to the category names;

the data analysis module is used for analyzing the pipeline information, and the specific analysis process is as follows:

counting the collected data at the same position to obtain summarized data at the same position, dividing the collected content of each category name in the summarized data into a group and marking the group as subtasks, counting the number of all the subtasks, and processing the subtasks to obtain corresponding processing results when the number of the subtasks is smaller than or equal to a set number threshold value; when the number of the subtasks is larger than a set number threshold, counting the number of the subtasks with the same category name and uniformly dividing the subtasks into a plurality of groups to obtain a task group, wherein the task group is provided with a set formed by a plurality of subtasks; the task group is sent to a data processing end and receives a processing result fed back by the data processing end; wherein the processing result is a normal pressure result and an abnormal pressure result; when the processing result is an abnormal pressure result, generating an abnormal display instruction of the pipeline at the corresponding position and sending the abnormal display instruction to the monitoring display module;

the monitoring display module is used for receiving an abnormal display instruction and displaying the abnormality;

as a preferred embodiment of the present invention, the server further includes:

the information acquisition module is used for acquiring terminal information of the data processing end in communication connection with the server and sending the terminal information to the information analysis module; the terminal information comprises hardware parameter data and positions;

the information analysis module is used for receiving and analyzing the terminal information to obtain an information analysis value of the data processing end, and the specific process is as follows:

setting a preset parameter value corresponding to all hardware parameters, matching the hardware parameters of the data processing end with all the hardware parameters to obtain corresponding preset parameter values, and summing all the matched preset parameter values to obtain a parameter total value; sending an information test signaling to a data processing end to acquire a time stamp of the information test signaling received by the data processing end, and calculating a time difference value between the time stamp of the information test signaling and the time stamp received by the data processing end to acquire a response interval duration;

acquiring a business score of a data processing end; when the data processing end is initially registered, the service score is taken as one; normalizing the total parameter value, the response interval duration and the service score, and extracting the values after normalization of the total parameter value, the response interval duration and the service score to be respectively marked as a first value, a second value and a third value; taking the length of the first numerical value and the second numerical value as the radius as the sectors with the angle of forty-five degrees to obtain two sectors, overlapping the circle centers of the two sectors, selecting the midpoints of the corresponding circular arcs of the two sectors, connecting the two midpoints to obtain an arc connecting line, selecting the midpoint of the arc connecting line, taking the midpoint of the arc connecting line as the starting point, taking the third numerical value as the length, making a straight line perpendicular to the arc connecting line, connecting the end point of the straight line with the two ends of the arc connecting line to obtain a triangle, calculating the area of the triangle, extracting the numerical value of the area, and marking the area as the information analysis value of the data processing end; and send it into the database.

As a preferred implementation manner of the invention, the specific process of the data analysis module sending the task group to the data processing end is as follows: the method comprises the steps of obtaining an information analysis value of a data processing end, comparing the information analysis value with a set analysis threshold, removing the data processing end with the information analysis value smaller than the set analysis threshold, sequencing the rest data processing end according to the size of the information analysis value from large to small, counting the number of task groups, comparing the number of task groups with the number of the data processing end, and when the number of the task groups is smaller than or equal to the number of the data processing end, sequentially sending the task groups to the data processing end from front to back; when the number of task groups is greater than the number of data processing ends, dividing the number of task groups by the number of data processing ends to obtain a number ratio, extracting integers in the number ratio, sequentially transmitting corresponding integer task groups to the data processing ends, and sequentially transmitting the rest task groups to the data processing ends from front to back.

As a preferred embodiment of the present invention, the data analysis module further includes:

the task acquisition unit is used for acquiring a first timestamp of the received task group of the data processing unit and a second timestamp of a processing result corresponding to the feedback task group, and the total number of the received task groups of the data processing unit and sending the total number to the task division processing unit;

the business processing unit is used for carrying out business score analysis on the data processing end, and the specific analysis process is as follows: calculating the time difference between the first time stamp and the second time stamp to obtain a single analysis duration, dividing the numerical value of all the single analysis durations by the number of the corresponding received task groups to obtain analysis ratios, filling all the analysis ratios in a coordinate system formed by the analysis ratios and the second time errors according to the sequence of the second time stamp, and then sequentially connecting two adjacent analysis ratiosObtaining a corresponding line graph by the analysis ratios, and calculating the slope of the connecting line of the two adjacent analysis ratios and the included angle between the connecting line of the two analysis ratios and the vertical coordinate axis; setting a plurality of included angle ranges i, i=1, 2, … …, n and n as the total number of the included angle ranges, and taking the value as a positive integer; the preset coefficient Qi corresponding to each included angle range i; when the included angle between the two analysis ratio connecting lines and the vertical coordinate axis is in the included angle range i, marking the slope of the two adjacent analysis ratio connecting lines as Xi; substitution formula

Obtaining a business score of a data processing end, wherein k1 and k2 are preset weight coefficients; m is the total number of the task groups received by the data processing end;

as a preferred implementation mode of the invention, the data acquisition end comprises an acquisition device arranged on a long oil and gas transmission pipeline, a shell is arranged on the acquisition device, a gear and a motor for driving the gear to rotate are arranged in the shell, an annular cavity is arranged on the side wall of the acquisition device, a rotary annular plate is arranged in the annular cavity, a plurality of tooth grooves 8 meshed with the gear are arranged on one side of the annular plate, one end of a cross rod is arranged on the other side of the annular plate, an auxiliary supporting ring is arranged on the other end of the cross rod, a plurality of arc plates are arranged on the bottom end surface of the cross rod, a pressure sensor is arranged between the arc plates and the cross rod, the bottom end surface of each arc plate is tangent to the outer surface of the long oil and gas transmission pipeline, and the pressure sensor is used for acquiring pressure data received by the arc plates;

as a preferred embodiment of the present invention, a summary sending module and a power supply module are further installed in the housing; the summarizing and transmitting module is used for collecting pressure data of the pressure sensor and transmitting the pressure data to the server; the power supply module is used for providing electric energy for the motor, the pressure sensor and the summarizing and transmitting module.

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

1. according to the invention, the data acquisition end comprehensively acquires the pipeline information of the long oil and gas pipeline, and then the data analysis module analyzes the pipeline information to obtain a processing result, so that abnormal structure monitoring is performed, the deformation problem of the long oil and gas pipeline can be found in time, corresponding operation is performed, and the leakage problem of the long oil and gas pipeline is avoided;

2. the invention drives the gear to rotate through the motor, thereby driving the rotating ring-shaped plate to rotate through the meshing of the gear and the tooth slot, and then driving the cross rod to rotate around the surface of the long oil and gas pipeline, and the pressure sensor collects the pressure born by the arc-shaped plate when the cross rod rotates, and when the surface of the long oil and gas pipeline is deformed, the pressure between the arc-shaped plate and the surface of the long oil and gas pipeline is changed.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

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

FIG. 2 is a schematic block diagram of a data analysis module of the present invention;

FIG. 3 is a schematic diagram of the overall structure of the data acquisition end of the present invention;

FIG. 4 is a schematic diagram of the structure of the collecting device of the present invention;

FIG. 5 is a schematic view of the pressure sensor installation of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the long oil and gas pipeline data monitoring and analyzing system based on the internet comprises a server and a plurality of data acquisition ends; the data acquisition end is in communication connection with the server through the Internet and performs data exchange;

referring to fig. 3-5, a data acquisition end is installed on a long oil and gas transmission pipeline 2, the data acquisition end comprises an acquisition device 1, a shell 11 is installed on the acquisition device 1, a gear 12, a motor for driving the gear 12 to rotate, a summary sending module and a power supply module are installed in the shell 11; the side wall of the acquisition device 1 is provided with an annular cavity, a rotary annular plate 13 is arranged in the annular cavity, one side of the annular plate 13 positioned in the annular cavity is provided with a plurality of tooth grooves 18 meshed with a gear 12, the other side of the annular plate 13 is provided with one end of a cross rod 14, the other end of the cross rod 14 is provided with an auxiliary supporting ring 15, the bottom end surface of the cross rod 14 is provided with a plurality of arc plates 17, a pressure sensor 16 is arranged between the arc plates 17 and the cross rod 14, the bottom end surface of the arc plates 17 is tangential to the outer surface of the long oil and gas pipeline 2, and the pressure sensor 16 is used for acquiring pressure data received by the arc plates 17; the summary sending module is used for collecting pressure data of the pressure sensor 16 and measured positions of the pressure sensor 16 and sending the pressure data and the measured positions to the server; the power supply module is used for providing electric energy for the motor, the pressure sensor 16 and the summarizing and transmitting module; the motor drives the gear 12 to rotate, so that the gear 12 and the tooth grooves 18 are meshed to drive the rotating annular plate 13 to rotate, and then the cross rod 14 is driven to rotate around the surface of the long oil and gas conveying pipeline 2, the pressure sensor 16 collects the pressure born by the arc plate 17 when the cross rod 14 rotates, and when the surface of the long oil and gas conveying pipeline 2 deforms, the pressure between the arc plate 17 and the surface of the long oil and gas conveying pipeline 2 changes; a photographing assembly for photographing the image of the long oil and gas pipeline 2 can be further arranged on the cross rod 14, so that the image of the long oil and gas pipeline 2 can be conveniently collected through the photographing assembly and sent to a server for image analysis;

referring to fig. 1, the server includes a data receiving module, a database, a data analysis module, a monitoring display module, an information acquisition module and an information analysis module;

the data receiving module receives the pipeline information sent by the data acquisition end and sends the pipeline information to the database; the database is used for storing pipeline information; the pipeline information comprises a position, corresponding acquisition data and a time stamp, wherein the acquisition data comprises acquired category names and acquisition contents corresponding to the category names, and particularly pressure and pressure values;

the data analysis module analyzes the pipeline information, and specifically comprises the following steps:

counting the collected data at the same position to obtain summarized data at the same position, dividing the collected content of each category name in the summarized data into a group and marking the group as a subtask, wherein the same category name is the pressure value of the same pressure sensor number corresponding to different collection moments;

counting the number of all subtasks, and processing the subtasks to obtain corresponding processing results when the number of the subtasks is smaller than or equal to a set number threshold; when the pressure value changes, marking the pressure as an abnormal pressure result;

when the number of the subtasks is larger than a set number threshold, counting the number of the subtasks with the same category name and uniformly dividing the subtasks into a plurality of groups to obtain a task group, wherein the task group is provided with a set formed by a plurality of subtasks; the task group is sent to a data processing end, and the specific occurrence process is as follows:

the method comprises the steps of obtaining an information analysis value of a data processing end, comparing the information analysis value with a set analysis threshold, removing the data processing end with the information analysis value smaller than the set analysis threshold, sequencing the rest data processing end according to the size of the information analysis value from large to small, counting the number of task groups, comparing the number of task groups with the number of the data processing end, and when the number of the task groups is smaller than or equal to the number of the data processing end, sequentially sending the task groups to the data processing end from front to back; when the number of task groups is greater than that of the data processing terminals, dividing the number of task groups by the number of the data processing terminals to obtain a number ratio, extracting integers in the number ratio, sequentially transmitting corresponding integer task groups to the data processing terminals, and sequentially transmitting the rest task groups to the data processing terminals from front to back;

referring to fig. 2, the data analysis module further includes a task acquisition unit and a task processing unit; the task acquisition unit acquires a first timestamp of the received task group and a second timestamp of a processing result corresponding to the feedback task group, and the total number of the received task groups is received by the data processing unit; the transaction processing unit analyzes the transaction score of the data processing end and processes the first time stamp and the second time stampCalculating the difference to obtain single analysis time length, dividing the numerical value of all the single analysis time length by the number of the corresponding received task groups to obtain analysis ratios, filling all the analysis ratios in a coordinate system formed by the analysis ratios and the second time errors according to the sequence of the second time stamps, sequentially connecting two adjacent analysis ratios to obtain a corresponding line graph, and calculating the slope of a connecting line of the two adjacent analysis ratios and the included angle between the connecting line of the two analysis ratios and a vertical coordinate axis; setting a plurality of included angle ranges i, i=1, 2, … …, n and n as the total number of the included angle ranges, and taking the value as a positive integer; the preset coefficient Qi corresponding to each included angle range i; when the included angle between the two analysis ratio connecting lines and the vertical coordinate axis is in the included angle range i, marking the slope of the two adjacent analysis ratio connecting lines as Xi; substitution formula

Obtaining a service score of a data processing end, wherein k1 and k2 are preset weight coefficients, and can take values of 0.55 and 0.45; m is the total number of the task groups received by the data processing end; the formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions; />

Receiving a processing result fed back by a data processing end; wherein the processing result is a normal pressure result and an abnormal pressure result; when the processing result is an abnormal pressure result, generating an abnormal display instruction of the pipeline at the corresponding position and sending the abnormal display instruction to the monitoring display module;

the monitoring display module is used for receiving the abnormal display instruction and carrying out abnormal display, and specifically displays as follows: prompting abnormal characters, corresponding positions, audible and visual prompting and other prompting operations;

the information acquisition module acquires terminal information of the data processing end and sends the terminal information to the information analysis module; the terminal information comprises hardware parameter data, positions and the like; the data processing end is a device with a data processing function, such as a computer, a desktop computer or a notebook computer;

the information analysis module receives and analyzes the terminal information to obtain an information analysis value of the data processing end, and the specific process is as follows:

setting a preset parameter value corresponding to all hardware parameters, matching the hardware parameters of the data processing end with all the hardware parameters to obtain corresponding preset parameter values, and summing all the matched preset parameter values to obtain a parameter total value; sending an information test signaling to a data processing end to acquire a time stamp of the information test signaling received by the data processing end, and calculating a time difference value between the time stamp of the information test signaling and the time stamp received by the data processing end to acquire a response interval duration;

acquiring a business score of a data processing end; when the data processing end is initially registered, the service score is taken as one; normalizing the total parameter value, the response interval duration and the service score, and extracting the values after normalization of the total parameter value, the response interval duration and the service score to be respectively marked as a first value, a second value and a third value; taking the length of the first numerical value and the second numerical value as the radius as the sectors with the angle of forty-five degrees to obtain two sectors, overlapping the circle centers of the two sectors, selecting the midpoints of the corresponding circular arcs of the two sectors, connecting the two midpoints to obtain an arc connecting line, selecting the midpoint of the arc connecting line, taking the midpoint of the arc connecting line as the starting point, taking the third numerical value as the length, making a straight line perpendicular to the arc connecting line, connecting the end point of the straight line with the two ends of the arc connecting line to obtain a triangle, calculating the area of the triangle, extracting the numerical value of the area, marking the area as the information analysis value of the data processing end, and sending the information analysis value to a database;

when the device is used, the data acquisition end comprehensively acquires the pipeline information of the long oil and gas pipeline 2, then the data analysis module analyzes the pipeline information to obtain a processing result, and further abnormal structure monitoring is carried out, so that deformation problems of the long oil and gas pipeline 2 can be found in time, corresponding operation is carried out, and leakage problems of the long oil and gas pipeline 2 are avoided; the motor drives the gear 12 to rotate, so that the gear 12 and the tooth grooves 18 are meshed to drive the rotating annular plate 13 to rotate, and then the cross rod 14 is driven to rotate around the surface of the long oil and gas conveying pipeline 2, the pressure sensor 16 collects the pressure born by the arc plate 17 when the cross rod 14 rotates, and when the surface of the long oil and gas conveying pipeline 2 deforms, the pressure between the arc plate 17 and the surface of the long oil and gas conveying pipeline 2 changes;

the data analysis module counts the number of subtasks processed in the pipeline information, and when the number is excessive, the subtasks are sent to the data processing end for processing, so that the efficiency of a data processing result is improved.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (3)

1. The long oil and gas pipeline data monitoring and analyzing system based on the Internet comprises a server and at least one data acquisition end which is connected with the server through the Internet in a communication way, wherein the data acquisition end is arranged on a long oil and gas pipeline and is used for acquiring pipeline information of the long oil and gas pipeline and transmitting the pipeline information to the server; the server is characterized by comprising a data receiving module, a database, a data analysis module and a monitoring display module;

the data receiving module is used for receiving the pipeline information sent by the data acquisition end and sending the pipeline information to the database; the database is used for storing pipeline information;

the data analysis module is used for analyzing the pipeline information, and the specific analysis process is as follows:

counting the collected data at the same position to obtain summarized data at the same position, dividing the collected content of each category name in the summarized data into a group and marking the group as subtasks, counting the number of all the subtasks, and processing the subtasks to obtain corresponding processing results when the number of the subtasks is smaller than or equal to a set number threshold value; when the number of the subtasks is larger than a set number threshold, counting the number of the subtasks with the same category name and uniformly dividing the subtasks into a plurality of groups to obtain a task group, wherein the task group is provided with a set formed by a plurality of subtasks; the task group is sent to a data processing end and receives a processing result fed back by the data processing end; wherein the processing result is a normal pressure result and an abnormal pressure result; when the processing result is an abnormal pressure result, generating an abnormal display instruction of the pipeline at the corresponding position and sending the abnormal display instruction to the monitoring display module;

the monitoring display module is used for receiving an abnormal display instruction and displaying the abnormality;

the server also comprises:

the information acquisition module is used for acquiring terminal information of the data processing end in communication connection with the server and sending the terminal information to the information analysis module;

the information analysis module is used for receiving and analyzing the terminal information to obtain an information analysis value of the data processing end, and the specific process is as follows:

setting a preset parameter value corresponding to all hardware parameters, matching the hardware parameters of the data processing end with all the hardware parameters to obtain corresponding preset parameter values, and summing all the matched preset parameter values to obtain a parameter total value; sending an information test signaling to a data processing end to acquire a time stamp of the information test signaling received by the data processing end, and calculating a time difference value between the time stamp of the information test signaling and the time stamp received by the data processing end to acquire a response interval duration;

acquiring a business score of a data processing end; normalizing the total parameter value, the response interval duration and the service score, and extracting the values after normalization of the total parameter value, the response interval duration and the service score to be respectively marked as a first value, a second value and a third value; taking the length of the first numerical value and the second numerical value as the radius as the sectors with the angle of forty-five degrees to obtain two sectors, overlapping the circle centers of the two sectors, selecting the midpoints of the corresponding circular arcs of the two sectors, connecting the two midpoints to obtain an arc connecting line, selecting the midpoint of the arc connecting line, taking the midpoint of the arc connecting line as the starting point, taking the third numerical value as the length, making a straight line perpendicular to the arc connecting line, connecting the end point of the straight line with the two ends of the arc connecting line to obtain a triangle, calculating the area of the triangle, extracting the numerical value of the area, and marking the area as the information analysis value of the data processing end;

the data acquisition end is including installing the collection system on long defeated oil gas pipeline, install the casing on the collection system, the internally mounted of casing has the gear and is used for driving gear pivoted motor, collection system's lateral wall is provided with the annular chamber, install the rotation annular plate in the annular chamber, one side that the annular plate is located the annular intracavity is provided with a plurality of tooth's socket with gear engagement, the one end of horizontal pole is installed to the opposite side of annular plate, auxiliary stay ring is installed to the other end of horizontal pole, a plurality of arc is installed to the bottom surface of horizontal pole, install pressure sensor between arc and the horizontal pole.

2. The internet-based long oil and gas pipeline data monitoring and analyzing system according to claim 1, wherein the specific process of the data analyzing module sending the task group to the data processing end is as follows: the method comprises the steps of obtaining an information analysis value of a data processing end, comparing the information analysis value with a set analysis threshold, removing the data processing end with the information analysis value smaller than the set analysis threshold, sequencing the rest data processing end according to the size of the information analysis value from large to small, counting the number of task groups, comparing the number of task groups with the number of the data processing end, and when the number of the task groups is smaller than or equal to the number of the data processing end, sequentially sending the task groups to the data processing end from front to back; when the number of task groups is greater than the number of data processing ends, dividing the number of task groups by the number of data processing ends to obtain a number ratio, extracting integers in the number ratio, sequentially transmitting corresponding integer task groups to the data processing ends, and sequentially transmitting the rest task groups to the data processing ends from front to back.

3. The internet-based long oil and gas pipeline data monitoring and analyzing system according to claim 2, wherein the data analyzing module further comprises:

the task acquisition unit is used for acquiring a first timestamp of the received task group of the data processing unit and a second timestamp of a processing result corresponding to the feedback task group, and the total number of the received task groups of the data processing unit and sending the total number to the task division processing unit;

the business processing unit is used for carrying out business score analysis on the data processing end, and the specific analysis process is as follows: and calculating the time difference between the first time stamp and the second time stamp to obtain a single analysis duration, dividing the numerical value of all the single analysis durations by the number of the corresponding received task groups to obtain analysis ratios, filling all the analysis ratios in a coordinate system formed by the analysis ratios and the second time stamp according to the sequence of the second time stamp, sequentially connecting two adjacent analysis ratios to obtain a corresponding line graph, calculating the slope of the connecting line of the two adjacent analysis ratios and the included angle between the connecting line of the two analysis ratios and the vertical coordinate axis, and processing to obtain the business score of the data processing end.

Images