CN109241353B - Data auditing method - Google Patents

Abstract

The embodiment of the invention relates to a data auditing method, which comprises the following steps: the server monitors the first environment monitoring equipment; determining a second environment monitoring device adjacent to the geographic position of the first environment monitoring device, and determining a third environment monitoring device identical to the information of the monitoring point of the first environment monitoring device; acquiring monitoring data of a second environment monitoring device and a third environment monitoring device; comparing the monitoring data of the second environment monitoring equipment with the monitoring data of the first environment monitoring equipment to obtain a first difference value, and comparing the monitoring data of the third environment monitoring equipment with the monitoring data of the first environment monitoring equipment to obtain a second difference value; when one value of the first difference value and the second difference value exceeds a preset warning threshold value, determining that monitoring data of the first environment monitoring equipment are abnormal; when the first difference value exceeds a preset warning threshold value and the quality control equipment identification information of the first environment monitoring equipment is a first identification, determining that a monitoring point model corresponding to the first environment monitoring equipment is abnormal.

Description

Data auditing method

Technical Field

The invention relates to the field of data processing, in particular to a data auditing method.

Background

With the development of science and technology and the advancement of society, people rely more and more on various data to make decisions, but with the increase of business volume and the accumulation of time of enterprises, the data volume generated by equipment in enterprises is also larger and larger, and it is difficult to determine which data is correct and which data may have abnormality from huge data volume by a simple manual auditing mode. Especially for the equipment used for environmental monitoring, the equipment input amount is large, the input mode is complex, and the detected environmental change degree is also ambiguous, so how to determine whether the data detected by the equipment is normal or not has become the key point and the difficulty of auditing the data output by the environmental monitoring equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a data auditing method, which is more comprehensive and more accurate for auditing monitoring data obtained by adopting various auditing means according to the geographic position of environment monitoring equipment, the monitoring points to which the environment monitoring equipment belongs and whether the environment monitoring equipment is quality control environment monitoring equipment.

In order to achieve the above object, an embodiment of the present invention provides a data auditing method, including:

the method comprises the steps that a server monitors first environment monitoring equipment according to a monitoring instruction and receives monitoring data sent by the first environment monitoring equipment; the monitoring data carries: the equipment geographic position information, the equipment monitoring point information and the quality control equipment identification information;

the server determines a plurality of second environment monitoring devices adjacent to the geographic position of the first environment monitoring device according to the device geographic position information of the first environment monitoring device, and determines one or a plurality of third environment monitoring devices identical to the first environment monitoring device monitoring point information according to the device monitoring point information of the first environment monitoring device;

acquiring monitoring data of the second environment monitoring device and monitoring data of the third environment monitoring device, comparing the monitoring data of the second environment monitoring device with the monitoring data of the first environment monitoring device to obtain a first difference value, and comparing the monitoring data of the third environment monitoring device with the monitoring data of the first environment monitoring device to obtain a second difference value;

when one value of the first difference value and the second difference value exceeds a preset warning threshold value, determining that monitoring data of the first environment monitoring equipment are abnormal, and generating alarm information of data abnormality;

when the first difference value exceeds the preset warning threshold value and the quality control equipment identification information of the first environment monitoring equipment is a first identification, determining that a monitoring point model corresponding to the first environment monitoring equipment is abnormal, and generating alarm information of the monitoring point model abnormality;

and sending the alarm information of the data abnormality and/or the alarm information of the monitoring point model abnormality to a display platform for a user to check the alarm information of the data abnormality and/or the alarm information of the monitoring point model abnormality through the display platform.

Preferably, the server determines, according to the device geographical location information of the first environment monitoring device, a plurality of second environment monitoring devices adjacent to the first environment monitoring device geographical location, where the determining includes:

the server determines a second environment monitoring device within a preset square kilometer range from the first environment monitoring device according to the device geographical position information of the first environment monitoring device;

or the server determines a preset number of second environment monitoring devices nearest to the first environment monitoring device according to the device geographical position information of the first environment monitoring device.

Preferably, after the server monitors the first environmental monitoring device according to the monitoring instruction, the method further comprises;

the server receives the equipment state feedback data sent by the first environment monitoring equipment and determines whether the first environment monitoring equipment is abnormal or not according to the equipment state feedback data and the monitoring data;

and when the first environment monitoring equipment is abnormal, generating and outputting alarm information of equipment abnormality, and displaying the alarm information of equipment abnormality to the user.

Further preferably, the determining whether the first environmental monitoring device is abnormal according to the device state feedback data and the monitoring data is specifically:

the server determines whether the power utilization state information in the equipment state feedback data is abnormal;

the server acquires historical monitoring data, obtains a monitoring data change curve according to the historical monitoring data and the current monitoring data, and determines whether the monitoring data change curve is an abnormal data change curve or not;

and determining that the first environment monitoring device is abnormal when the electrical state information is abnormal and/or when the monitoring data change curve is an abnormal data change curve.

Further preferably, the abnormal data change curve includes: a first abnormal curve with a curve change rate of 0 in a preset time, and a second abnormal curve with a curve change rate of more than a preset amplitude in the preset time.

Further preferably, the generating and outputting the alarm information of the equipment abnormality specifically includes:

generating alarm information of equipment abnormality, and sending the alarm information of the equipment abnormality to a maintenance platform for maintenance personnel to check the alarm information of the equipment abnormality through the maintenance platform.

Preferably, after the sending the alarm information of the abnormal data and/or the alarm information of the abnormal monitoring point model to the display platform, the method further includes:

the server acquires the alarm information of the abnormal historical data and the alarm information of the abnormal historical monitoring point model, generates an abnormal alarm report according to the alarm information of the abnormal historical data and the alarm information of the abnormal historical monitoring point model, and the alarm information of the abnormal current historical data and the alarm information of the abnormal historical monitoring point model, and outputs the abnormal alarm report.

Preferably, after the sending the alarm information of the abnormal data and/or the alarm information of the abnormal monitoring point model to the display platform, the method further includes:

and receiving the modification data input by the user, and updating the monitoring data according to the modification data.

According to the data auditing method provided by the embodiment of the invention, the monitoring data obtained by the environment monitoring equipment is audited by adopting various auditing means according to the geographic position of the environment monitoring equipment, the monitoring point to which the environment monitoring equipment belongs and whether the environment monitoring equipment is the quality control environment monitoring equipment or not, and the auditing method is more comprehensive and more accurate.

Drawings

Fig. 1 is a flowchart of a data auditing method according to an embodiment of the present invention.

Detailed Description

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

In order to better understand the technical scheme of the invention, an application scenario of the data auditing method provided by the invention is introduced.

In the application scenario of the present embodiment, the environment to be monitored, for example, air, water quality, is monitored by providing a plurality of environment monitoring devices. The environment to be monitored is divided into a plurality of monitoring areas, a plurality of monitoring points are arranged in each monitoring area, and a plurality of environment monitoring devices are arranged under each monitoring point to monitor the environment of the monitoring point at multiple angles. The monitoring points are divided into quality control monitoring points and non-quality control monitoring points. Quality control monitoring points may be understood as monitoring points disposed around national control devices having a national control monitoring environment, while non-quality control monitoring points may be understood as monitoring points disposed around quality control monitoring points. Correspondingly, one or more quality control environment monitoring devices are arranged below the quality control monitoring points, and one or more non-quality control environment monitoring devices are arranged below the non-quality control monitoring points.

The embodiment of the invention firstly provides a data auditing method for auditing data monitored by environmental monitoring equipment, and a flow chart of the method is shown in figure 1 and comprises the following steps.

Step 110, the server monitors the first environment monitoring equipment according to the monitoring instruction and receives monitoring data sent by the first environment monitoring equipment;

specifically, the server monitors the first environment monitoring equipment according to the monitoring instruction, and receives monitoring data and equipment state feedback data sent by the first environment monitoring equipment. The first environmental monitoring device can be understood as the environmental monitoring device to be audited currently. The monitoring data can be understood as an index value after the environment is monitored. The monitoring data carries: device geographical location information, device monitoring point information and quality control device identification information. The equipment geographical position information is used for identifying the geographical position of the current environment monitoring equipment, the equipment monitoring point information is used for identifying the site information affiliated to the current environment monitoring equipment, and the quality control equipment identification information is used for identifying whether the current environment monitoring equipment is the quality control environment monitoring equipment.

Data auditing of data monitored by current environment monitoring equipment comprises auditing of monitoring data and auditing of data abnormality caused by whether the environment monitoring equipment is in fault or not. The step of auditing the monitored data itself includes the following steps 120-150. And the auditing of the data anomalies caused by whether the environmental monitoring equipment is malfunctioning includes the following steps 121-141.

Step 120, determining a plurality of second environmental monitoring devices adjacent to the geographic location of the first environmental monitoring device and one or more third environmental monitoring devices identical to the first environmental monitoring device monitoring point information;

specifically, the auditing of the monitoring data itself includes the following three aspects.

In the first aspect, the server compares the monitoring data of the current environmental monitoring device with other peripheral device data to determine whether the monitoring data of the current environmental monitoring device is abnormal. The perimeter here refers to a geographic perimeter. Therefore, the server first needs to determine a plurality of second environment monitoring devices adjacent to the geographic location of the first environment monitoring device according to the device geographic location information of the first environment monitoring device. The second environmental monitoring device may be understood as other environmental monitoring devices surrounding the current environmental monitoring device.

In further detail, in the first aspect, the server determines a second environmental monitoring device within a preset square kilometer range from the first environmental monitoring device according to the device geographical location information of the first environmental monitoring device. Or the server determines a preset number of second environment monitoring devices nearest to the first environment monitoring device according to the device geographical position information of the first environment monitoring device. That is, a predetermined number of second environmental monitoring devices that are within a predetermined square kilometer range from the first environmental monitoring device, or that are nearest within a predetermined square kilometer range from the first environmental monitoring device, are environmental detection devices that are "peripheral" to the first environmental monitoring device. Preferably, the preset square kilometer range is 1 square kilometer range, and the preset number is 15.

In the second aspect, the server compares the monitoring data of the current environmental monitoring device with other device data belonging to the same monitoring site to determine whether the monitoring data of the current environmental monitoring device is abnormal. Therefore, the server needs to determine one or more third environment monitoring devices identical to the first environment monitoring device monitoring point information according to the device monitoring point information of the first environment monitoring device. The third environmental monitoring device may be understood as other environmental monitoring devices under the same monitoring site to which the current environmental monitoring device belongs.

In a third aspect, if the current environmental monitoring device is a quality control environmental monitoring device, the server compares the monitoring data of the current quality control environmental monitoring device with other peripheral device data to determine whether the current quality control monitoring point model is abnormal. The quality control monitoring point model may be understood as an algorithmic model for calculating monitoring data within quality control monitoring points.

Step 130, comparing the monitoring data of the second environmental monitoring device with the monitoring data of the first environmental monitoring device, and comparing the monitoring data of the third environmental monitoring device with the monitoring data of the first environmental monitoring device;

specifically, the server acquires monitoring data of a second environmental monitoring device around the current environmental monitoring device and monitoring data of a third environmental monitoring device under the same monitoring site, compares the monitoring data of the second environmental monitoring device with the monitoring data of the first environmental monitoring device to obtain a first difference value, and simultaneously compares the monitoring data of the third environmental monitoring device with the monitoring data of the first environmental monitoring device to obtain a second difference value.

Step 140, determining whether the monitoring data and/or the monitoring point model are abnormal;

specifically, when any one of the first difference value and the second difference value exceeds the preset alert threshold, that is, when the difference value between the monitored data of the first environmental monitoring device and the monitored data of the peripheral second environmental monitoring device exceeds the preset alert threshold, or when the difference value between the monitored data of the first environmental monitoring device and the monitored data of the third environmental monitoring device belonging to the same monitoring site exceeds the preset alert threshold, it is indicated that the monitored data of the first environmental monitoring device is abnormal, the following step 150 is executed.

When the first difference exceeds the preset alert threshold and the quality control device identification information of the first environmental monitoring device is the first identification representing that the device is the quality control environmental monitoring device, that is, when the difference between the monitored data of the first environmental monitoring device which is the quality control environmental device and the monitored data of the peripheral second environmental monitoring device exceeds the preset alert threshold, it is indicated that the monitored point model corresponding to the first environmental monitoring device is also executed in step 150 below.

Step 150, when the monitoring data and/or the monitoring point model are abnormal, sending alarm information of the abnormal data and/or alarm information of the abnormal monitoring point model to a display platform;

specifically, when the monitoring data of the first environment monitoring device is determined in the above steps, the server generates alarm information of data abnormality, and the alarm information of data abnormality is sent to the display platform, so that a user can check the alarm information of data abnormality through the display platform. And when the monitoring point model corresponding to the first environment monitoring equipment is used, the server generates alarm information of the abnormality of the monitoring point model, and the alarm information of the abnormality of the monitoring point model is sent to the display platform so that a user can check the alarm information of the abnormality of the monitoring point model through the display platform. The display platform can be understood as a platform for displaying the monitoring data, and is mainly oriented to users who need to observe the monitoring data.

Step 121, the server obtains the historical monitoring data, and obtains a monitoring data change curve according to the historical monitoring data and the current monitoring data;

specifically, the process of auditing the monitored data itself in steps 120-150 may be understood as being determined by comparing the monitored data with other environmental monitoring devices. The process of auditing the data anomalies caused by whether the environmental monitoring equipment is malfunctioning in steps 121-141 described below may be understood as being determined by comparison with historical data.

The server acquires historical monitoring data of the current first environment monitoring device, and then obtains a monitoring data change curve for reflecting the change degree of the data according to the historical monitoring data and the current monitoring data.

Step 131, determining whether the first environmental monitoring device is abnormal;

in particular, data anomalies caused by whether or not the environmental monitoring device is malfunctioning are manifested in two ways. On the one hand, the monitoring data of the environment monitoring device is abnormal due to abnormal power supply, and on the other hand, the monitoring data of the environment monitoring device is abnormal due to abnormal sensors in the environment monitoring device.

The server determines whether the power utilization state information in the equipment state feedback data is abnormal when the power utilization state information is abnormal, and when the power utilization state information is abnormal, the server indicates that the first environment monitoring equipment is abnormal, and further indicates that the reason of the abnormal monitoring data is caused by abnormal power supply of the first environment monitoring equipment.

And, the server determines whether the monitored data change curve is an abnormal data change curve. The abnormal data change curve includes: the first abnormal curve with the curve change rate of 0 in the preset time, namely the monitoring data is not changed at all in the preset time, and the second abnormal curve with the curve change rate of more than the preset amplitude in the preset time, namely the monitoring data is excessively large in the preset time. When the monitoring data change curve is an abnormal data change curve, the first environment monitoring equipment is described as abnormal, and further the reason of the abnormal monitoring data is described as the abnormal sensor of the first environment monitoring equipment.

Step 141, when the first environment monitoring equipment is abnormal, generating and outputting alarm information of the equipment abnormality;

specifically, when the first environmental monitoring equipment is abnormal, the reason for the abnormal monitoring data is caused by the abnormal first environmental monitoring equipment, the server generates alarm information of the abnormal equipment and sends the alarm information of the abnormal equipment to the maintenance platform so that maintenance personnel can check the alarm information of the abnormal equipment through the maintenance platform. The maintenance platform can be understood as a platform for displaying the state of the environmental monitoring equipment, and is mainly oriented to maintenance personnel for maintaining the environmental monitoring equipment.

After step 150 or step 141 is performed, steps 160 and 170 may also be performed.

Step 160, the server generates a report and outputs the report;

specifically, when the alarm information of the data abnormality and/or the alarm information of the monitoring point model abnormality are generated in the steps 120 to 150, the server obtains the alarm information of the history data abnormality and the alarm information of the history monitoring point model abnormality of the first environmental monitoring device according to the report generation instruction, generates an abnormal alarm report according to the alarm information of the history data abnormality and the alarm information of the history monitoring point model abnormality, and the alarm information of the current history data abnormality and the alarm information of the history monitoring point model abnormality, and outputs the abnormal alarm report. Or when the alarm information of the equipment abnormality is generated in the steps 121-141, the server acquires the alarm information of the historical equipment abnormality of the first environment monitoring equipment according to the report generation instruction, generates an abnormal alarm report according to the alarm information of the historical equipment abnormality and the alarm information of the current equipment abnormality, and outputs the abnormal alarm report.

Step 170, the server receives the modification data input by the user and updates the monitoring data according to the modification data;

specifically, when the alarm information of the data anomaly and/or the alarm information of the monitoring point model anomaly are generated in the above steps 120 to 150 or when the alarm information of the equipment anomaly is generated in the above steps 121 to 141, the server may further accept modification data input by the user according to the alarm information of the data anomaly and/or the alarm information of the monitoring point model anomaly and/or the alarm information of the equipment anomaly, and update the monitoring data according to the modification data.

According to the data auditing method provided by the embodiment of the invention, the monitoring data obtained by the environment monitoring equipment is audited by adopting various auditing means according to the geographic position of the environment monitoring equipment, the monitoring point to which the environment monitoring equipment belongs and whether the environment monitoring equipment is the quality control environment monitoring equipment or not, and the auditing method is more comprehensive and more accurate.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative elements and steps are described above generally in terms of function in order to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, in a software module executed by a processor, or in a combination of the two. The software modules may be disposed in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM power system control method, or any other form of storage medium known in the art.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. A method of data auditing, the method comprising:

the method comprises the steps that a server monitors first environment monitoring equipment according to a monitoring instruction and receives monitoring data sent by the first environment monitoring equipment; the monitoring data carries: the equipment geographic position information, the equipment monitoring point information and the quality control equipment identification information;

the server determines a plurality of second environment monitoring devices adjacent to the geographic position of the first environment monitoring device according to the device geographic position information of the first environment monitoring device, and determines one or a plurality of third environment monitoring devices identical to the first environment monitoring device monitoring point information according to the device monitoring point information of the first environment monitoring device; the monitoring point information is the same, and the environmental monitoring equipment belongs to the same monitoring site;

acquiring monitoring data of the second environment monitoring device and monitoring data of the third environment monitoring device, comparing the monitoring data of the second environment monitoring device with the monitoring data of the first environment monitoring device to obtain a first difference value, and comparing the monitoring data of the third environment monitoring device with the monitoring data of the first environment monitoring device to obtain a second difference value;

when one value of the first difference value and the second difference value exceeds a preset warning threshold value, determining that monitoring data of the first environment monitoring equipment are abnormal, and generating alarm information of data abnormality;

when the first difference value exceeds the preset warning threshold value and the quality control equipment identification information of the first environment monitoring equipment is a first identification, determining that a monitoring point model corresponding to the first environment monitoring equipment is abnormal, and generating alarm information of the monitoring point model abnormality;

and sending the alarm information of the data abnormality and/or the alarm information of the monitoring point model abnormality to a display platform for a user to check the alarm information of the data abnormality and/or the alarm information of the monitoring point model abnormality through the display platform.

2. The data auditing method according to claim 1, wherein the server determines, according to the device geographical location information of the first environmental monitoring device, a plurality of second environmental monitoring devices adjacent to the first environmental monitoring device geographical location, specifically:

the server determines a second environment monitoring device within a preset square kilometer range from the first environment monitoring device according to the device geographical position information of the first environment monitoring device;

or the server determines a preset number of second environment monitoring devices nearest to the first environment monitoring device according to the device geographical position information of the first environment monitoring device.

3. The data auditing method of claim 1, wherein after the server monitors the first environmental monitoring device according to the monitoring instructions, the method further comprises;

the server receives the equipment state feedback data sent by the first environment monitoring equipment and determines whether the first environment monitoring equipment is abnormal or not according to the equipment state feedback data and the monitoring data;

and when the first environment monitoring equipment is abnormal, generating and outputting alarm information of equipment abnormality, and displaying the alarm information of equipment abnormality to the user.

4. A data auditing method according to claim 3, wherein said determining whether said first environmental monitoring device is abnormal based on said device status feedback data and said monitoring data is specifically:

the server determines whether the power utilization state information in the equipment state feedback data is abnormal;

the server acquires historical monitoring data, obtains a monitoring data change curve according to the historical monitoring data and the current monitoring data, and determines whether the monitoring data change curve is an abnormal data change curve or not;

and determining that the first environment monitoring device is abnormal when the electrical state information is abnormal and/or when the monitoring data change curve is an abnormal data change curve.

5. The data auditing method of claim 4, wherein the anomalous data change curve comprises: a first abnormal curve with a curve change rate of 0 in a preset time, and a second abnormal curve with a curve change rate of more than a preset amplitude in the preset time.

6. The data auditing method according to claim 3, wherein the generating and outputting alarm information of equipment abnormality specifically comprises:

generating alarm information of equipment abnormality, and sending the alarm information of the equipment abnormality to a maintenance platform for maintenance personnel to check the alarm information of the equipment abnormality through the maintenance platform.

7. The data auditing method of claim 1, wherein after the sending the alarm information for the data anomaly and/or the alarm information for the monitoring point model anomaly to a display platform, the method further comprises:

the server acquires the alarm information of the abnormal historical data and the alarm information of the abnormal historical monitoring point model, generates an abnormal alarm report according to the alarm information of the abnormal historical data and the alarm information of the abnormal historical monitoring point model, and the alarm information of the abnormal current historical data and the alarm information of the abnormal historical monitoring point model, and outputs the abnormal alarm report.

8. The data auditing method of claim 1, wherein after the sending the alarm information for the data anomaly and/or the alarm information for the monitoring point model anomaly to a display platform, the method further comprises:

and receiving the modification data input by the user, and updating the monitoring data according to the modification data.