CN112487038A - Water source monitoring track data processing method, device, equipment and storage medium - Google Patents

Abstract

The invention relates to the technical field of big data, is applied to the field of intelligent environment protection, and discloses a water source monitoring track data processing method, a device, equipment and a storage medium, which are used for improving the monitoring efficiency of a water source area. The water source monitoring track data processing method comprises the following steps: performing data correction processing on a plurality of water source monitoring positioning points to obtain a target water source monitoring track data set; uploading the target water source monitoring track data set to a target database according to the unique task coding information to obtain an uploading result; when the uploading result is uploading failure and the network quality is determined to be abnormal, caching a target water source monitoring track data set according to the unique task coding information to obtain a cached water source monitoring track data set; and performing data synchronization processing on the cached water source monitoring track data set through a preset service, and drawing and displaying the cached water source monitoring track data set. In addition, the invention also relates to a block chain technology, and the target water source monitoring track data set can be stored in the block chain node.

Description

Water source monitoring track data processing method, device, equipment and storage medium

Technical Field

The invention relates to the field of increment updating of big data technology, in particular to a water source monitoring track data processing method, a water source monitoring track data processing device, water source monitoring track data processing equipment and a storage medium.

Background

The patrol of the water source area ensures that the water source area has good water quality and sufficient water storage, avoids environmental pollution, ensures the safety of drinking water and realizes long-term development of urban health. Generally divided into routine patrol and key patrol, and the routine patrol is a daily patrol conducted based on a patrol system of a water source region protection area. The key inspection is a targeted inspection with emphasis, such as a special inspection, and the inspection process can be monitored and traced, so that the inspection is reliable and effective.

Currently, some enterprises perform big data analysis on user behaviors based on trajectory data acquisition technologies. For example, real-time road congestion analysis guides users to go out, and real-time sharing of single-vehicle track data guides enterprises to carry out targeted single-vehicle delivery. However, in the field of water source patrol, no track data acquisition technology is adopted by enterprises, and is used for making a patrol plan before patrol starts; monitoring and guiding the process during the inspection execution; and after the patrol is finished, analyzing and summarizing the effect. Some tracks are not drawn in real time although there is real-time positioning; some positioning devices have drawing, but the real-time uploading and storage of the track data are not carried out, and some track data have the problem of inaccuracy.

Disclosure of Invention

The invention provides a water source monitoring track data processing method, a water source monitoring track data processing device, water source monitoring track data processing equipment and a storage medium, which are used for improving the efficiency and quality of water source patrol and the safety of drinking water.

In order to achieve the above object, a first aspect of the present invention provides a water source monitoring trajectory data processing method, including: acquiring data of a plurality of water source monitoring positioning points of a target person and unique task coding information, and performing data correction processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set; calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result; when the uploading result is uploading failure and the network quality is determined to be abnormal, caching the target water source monitoring track data set into a memory database according to the unique task coding information to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure; and performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, and drawing and displaying the cached water source monitoring track data set.

Optionally, in a first implementation manner of the first aspect of the present invention, the obtaining data of multiple water source monitoring positioning points of a target person and unique task code information, and performing data deviation rectification processing on the data of the multiple water source monitoring positioning points to obtain a target water source monitoring track data set includes: collecting a plurality of water source monitoring and positioning point data of a target person within a preset time, wherein the water source monitoring and positioning point data have the same unique task coding information; sequencing the data of the plurality of water source monitoring positioning points in sequence according to the time stamp value of the data of each water source monitoring positioning point to obtain an initial water source monitoring positioning point data set; and screening the data set of the initial water source monitoring positioning point to obtain a target water source monitoring track data set.

Optionally, in a second implementation manner of the first aspect of the present invention, the performing data screening on the initial water source monitoring positioning point data set to obtain a target water source monitoring trajectory data set includes: sequentially screening an initial water source monitoring positioning point data set according to the time stamp value of each water source monitoring positioning point data, and reserving any water source monitoring positioning point data with the same time stamp value to obtain a filtered water source monitoring track point data set; sequentially reading each track point data from the filtered water source monitoring track point data set, wherein each track point data comprises a corresponding longitude value and a corresponding latitude value; sequentially calculating the actual distance between each two adjacent track point data according to the corresponding longitude value and the corresponding latitude value, and acquiring the duration information between each two adjacent track point data; and determining a patrol speed according to the actual distance and the duration information, and when the patrol speed is smaller than a preset speed threshold value, screening normal track point data from the filtered water source monitoring track point data set to obtain a target water source monitoring track data set.

Optionally, in a third implementation manner of the first aspect of the present invention, the invoking a preset data processing interface, and uploading the target water source monitoring track data set to a target database according to the unique task code information to obtain an upload result includes: packaging the unique task coding information and the target water source monitoring track data set into data to be processed according to a preset data format; writing the data to be processed into a preset queue, calling a preset data processing interface through the preset queue, and uploading the target water source monitoring track data set to a target database according to the unique task coding information to obtain response data; and analyzing the response data to obtain an uploading result, wherein the uploading result comprises uploading success and uploading failure.

Optionally, in a fourth implementation manner of the first aspect of the present invention, when the uploading result is an uploading failure and it is determined that the network quality is abnormal, caching the target water source monitoring track data set into a memory database according to the unique task code information to obtain a cached water source monitoring track data set, and setting an uploading state corresponding to the cached water source monitoring track data set as an uploading failure, where the uploading state includes: when the uploading result is uploading failure, acquiring the position information of the target person, and judging the network quality of the position information; when the network quality of the position information is abnormal, setting the unique task coding information as a target key and setting the target water source monitoring track data set as a target value; updating the target key and the target value into a memory database to obtain a cached water source monitoring track data set, updating an uploading state corresponding to the cached water source monitoring track data set into uploading failure, and setting an initial value of the uploading state as to-be-uploaded; and setting and displaying the network early warning information so that the target personnel can adjust the network quality according to the network early warning information.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the performing, by a preset service, data synchronization processing on the cached water source monitoring track data set until data synchronization is successful, updating an upload state corresponding to the cached water source monitoring track data set to an upload success, and drawing and displaying the cached water source monitoring track data set includes: calling a preset service regularly, and inquiring a cached water source monitoring track data set from the memory database, wherein the uploading state corresponding to the cached water source monitoring track data set is to be uploaded or the uploading fails; performing data synchronization operation on the cached water source monitoring track data set to obtain a synchronization result; when the synchronization result is synchronization failure, the preset service is called again and executed, and the calling of the preset service is stopped until the data synchronization is successful; and when the synchronization result is that the synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, calling a preset map engine, and carrying out graphic drawing and displaying on the cached water source monitoring track data set.

Optionally, in a sixth implementation manner of the first aspect of the present invention, after the performing data synchronization processing on the cached water source monitoring trajectory data set through a preset service until the data synchronization is successful, updating an upload state corresponding to the cached water source monitoring trajectory data set to an upload state successful and drawing and displaying the cached water source monitoring trajectory data set, the water source monitoring trajectory data processing method further includes: acquiring identification information of a water source to be monitored, and inquiring a target database according to the identification information to obtain a preset monitoring track data set corresponding to the water source to be monitored; and drawing and displaying the preset monitoring track data set so that a target person can determine whether the target water source monitoring track data set deviates from the preset monitoring track data set in real time.

The second aspect of the present invention provides a water source monitoring trajectory data processing apparatus, including: the deviation rectifying module is used for acquiring data of a plurality of water source monitoring positioning points and unique task coding information of a target person, and performing data deviation rectifying processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set; the uploading module is used for calling a preset data processing interface and uploading the target water source monitoring track data set to a target database according to the unique task coding information to obtain an uploading result; the cache module is used for caching the target water source monitoring track data set into a memory database according to the unique task coding information when the uploading result is uploading failure and the network quality is determined to be abnormal, so as to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure; and the drawing module is used for carrying out data synchronization processing on the cached water source monitoring track data set through a preset service, updating the uploading state corresponding to the cached water source monitoring track data set into successful uploading when the data synchronization is successful, and drawing and displaying the cached water source monitoring track data set.

The third aspect of the present invention provides a water source monitoring trajectory data processing apparatus, comprising: a memory and at least one processor, the memory having instructions stored therein; the at least one processor invokes the instructions in the memory to cause the water source monitoring trajectory data processing apparatus to execute the water source monitoring trajectory data processing method described above.

A fourth aspect of the present invention provides a computer-readable storage medium having stored therein instructions, which when run on a computer, cause the computer to execute the above-mentioned water source monitoring trajectory data processing method.

According to the technical scheme provided by the invention, a plurality of water source monitoring positioning point data and unique task coding information of a target person are obtained, and data deviation correction processing is carried out on the plurality of water source monitoring positioning point data to obtain a target water source monitoring track data set; calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result; when the uploading result is uploading failure and the network quality is determined to be abnormal, caching the target water source monitoring track data set into a memory database according to the unique task coding information to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure; and performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, and drawing and displaying the cached water source monitoring track data set. According to the invention, the track data is introduced to be applied to the water source monitoring work, the deviation rectification processing is carried out on the water source monitoring positioning point data to obtain the target water source monitoring track data set, when the network quality is abnormal, the target water source monitoring track data set is cached into the memory database and is submitted and displayed again, so that the water source patrol personnel can know the monitoring progress in real time, the monitoring can be carried out on the unfamiliar water source, the management personnel can supervise the monitoring execution condition in real time, the water source monitoring quality and the monitoring efficiency are improved, the drinking water safety is improved, and the life health of people is maintained.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a water source monitoring trajectory data processing method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of another embodiment of a water source monitoring trajectory data processing method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an embodiment of a water source monitoring trajectory data processing device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another embodiment of a water source monitoring trajectory data processing device according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an embodiment of a water source monitoring trajectory data processing device in an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides a water source monitoring track data processing method, a device, equipment and a storage medium, which are used for applying track data to water source area monitoring work by introducing the track data, so that patrolmen in a water source area can know monitoring progress in real time, monitoring an unfamiliar water source area can be realized, the monitoring quality and drinking water safety of the water source area are improved, and the life health of people is maintained.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," or "having," and any variations thereof, are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

For convenience of understanding, a specific flow of an embodiment of the present invention is described below, and referring to fig. 1, an embodiment of a water source monitoring trajectory data processing method according to an embodiment of the present invention includes:

101. and acquiring data of a plurality of water source monitoring positioning points of the target personnel and unique task coding information, and performing data deviation correction processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set.

It should be noted that, in the process of patrolling the target water source area, the terminal obtains the position data of the target person by positioning in real time through the application service of the global positioning system. Specifically, the terminal may preset a preset period, for example, the preset period is to acquire data every 1 second, or may be every 10 seconds, and is not limited herein. The terminal screens the collected data of the multiple water source monitoring positioning points according to preset precision, and connects the screened data of the multiple water source monitoring positioning points according to a time sequence to obtain a target water source monitoring track data set. Wherein the target water source monitoring trajectory dataset includes a plurality of global positioning system GPS trajectory points and timestamp values for each GPS trajectory point. Further, the target water source monitoring trajectory data set is stored in a block chain database, which is not limited herein.

It is to be understood that the executing subject of the present invention may be a water source monitoring trajectory data processing device, and may also be a terminal or a server, which is not limited herein. The embodiment of the present invention is described by taking a terminal as an execution subject.

102. And calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result.

It can be understood that when the target person performs the patrol task, the terminal starts to record effective positioning point data, suspends or continues to record positioning point locations, and continues to record effective positioning point locations or records more than 100 positioning point locations, so as to form a target water source monitoring track data set and submit the target water source monitoring track data set to a target database in the server until the patrol task is completed. That is, the terminal sorts the track points according to the timestamps, calls a preset data processing interface, and uploads the target water source monitoring track data set to the background server for storage. The target water source monitoring track data set has unique task coding information. Furthermore, the terminal adopts an incremental data uploading mode (a preset data processing interface is used for acquiring incremental data and uploading) to perform data uploading updating and data processing on the target water source monitoring track data set of the same inspection task according to the unique task coding information.

The uploading result comprises uploading success and uploading failure, when the uploading result is a preset value, the terminal determines that the uploading result is successful, the terminal displays the target water source monitoring track data set in real time, and the terminal continues to perform a positioning point data acquisition task within the next preset time range; when the uploading result is not the preset value, the terminal determines that the uploading result is uploading failure, and the terminal executes step 103. The preset value may be 1, and may also be a logic true value, which is not limited herein.

103. And when the uploading result is uploading failure and the network quality is determined to be abnormal, caching the target water source monitoring track data set into a memory database according to the unique task coding information to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure.

The memory database may be a remote dictionary service redis or a mapping map, and is not limited herein. Specifically, when the uploading result is uploading failure, the terminal acquires abnormal information corresponding to the uploading failure; the server judges whether the abnormal information is a broken network or a weak network; if the abnormal information is not the broken network or the weak network, the terminal determines that the network connection is normal and other abnormal problems exist, and prompts the abnormal information to the target user so that the target user can check the problems in time according to the abnormal information; if the abnormal information is a broken network or a weak network, the terminal determines that the network quality is abnormal, and stores the target water source monitoring track data set into a memory database to obtain a cached water source monitoring track data set; and the terminal updates the uploading state corresponding to the cached water source monitoring track data set into uploading failure.

104. And performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, and drawing and displaying the cached water source monitoring track data set.

It can be understood that when the terminal monitors that the quality of the mobile network is recovered to normal, the cached water source monitoring track data set is uploaded to the server in time, and it is ensured that the cached water source monitoring track data set is not lost. Specifically, the terminal registers a preset service in advance; the terminal starts the preset service by adopting a preset function startService (); the method comprises the steps that a server calls a preset service according to a preset period (for example, the preset period is every one minute), a cached water source monitoring track data set is sent to the server, a submission result is obtained, when the submission result is successful, the uploading state of the cached water source monitoring track data set is updated to be successful by a terminal, the terminal draws the cached water source monitoring track data set, so that target personnel can check monitored track information in real time, and the water source monitoring efficiency and the monitoring accuracy are improved.

In the embodiment of the invention, the track data is introduced to be applied to the water source monitoring work, the deviation rectification processing is carried out on the water source monitoring positioning point data to obtain the target water source monitoring track data set, and when the network quality is abnormal, the target water source monitoring track data set is cached in the memory database and is submitted and displayed again, so that the water source patrol personnel can know the monitoring progress in real time, can monitor the unfamiliar water source and supervise the monitoring execution condition in real time by the management personnel, the water source monitoring quality and the monitoring efficiency are improved, the drinking water safety is improved, and the life health of people is maintained.

Referring to fig. 2, another embodiment of the method for processing water source monitoring trajectory data according to the embodiment of the present invention includes:

201. the method comprises the steps of collecting a plurality of water source monitoring and positioning point data of a target person within a preset time length, wherein the water source monitoring and positioning point data have the same unique task coding information.

The unique task code information is mainly composed of a character string of a plurality of character combinations, and for example, the unique task code information is task _ 001. The unique task code information corresponds to data of a plurality of water source monitoring positioning points. Specifically, the terminal receives a plurality of water source monitoring positioning point data of a target person uploaded by positioning equipment installed on the terminal within a preset time length, the water source monitoring positioning point data comprise position information of the target person, and when the terminal executes a preset water source monitoring task, unique task code information corresponding to the collected water source monitoring positioning point data is the same.

202. And sequencing the data of the plurality of water source monitoring positioning points in sequence according to the time stamp value of the data of each water source monitoring positioning point to obtain an initial water source monitoring positioning point data set.

Specifically, the terminal obtains a timestamp parameter name, for example, the timestamp parameter name is time _ stamp, and the timestamp parameter names of the data of each water source monitoring and positioning point are the same; the terminal queries a timestamp value of each water source monitoring and positioning point data from the plurality of water source monitoring and positioning point data based on the timestamp parameter name; then the terminal compares the time stamp values of any two water source monitoring positioning point data, sets the water source monitoring positioning point data corresponding to the small time stamp value to be high priority, sets the water source monitoring positioning point data corresponding to the large time stamp value to be low priority, sets the priority according to the acquisition sequence when the time stamp values of any two water source monitoring positioning point data are equal, until the data of the water source monitoring positioning points are completely sequenced, and sequentially performs ascending sequence arrangement on the water source monitoring positioning point data according to the sequence from high to low priority to obtain an initial water source positioning point data set, wherein the priority can adopt a number 0 to represent high priority, 1 represents low priority, and so on, the priority is gradually reduced, and the specific position is not limited. For example, the terminal obtains 10 water source monitoring location point data A, B, C, D, E, F, G, H, I and J, and the terminal sorts the water source monitoring location point data in turn according to the time stamp value of each water source monitoring location point data and in the order from small to large, so as to obtain initial water source monitoring location point data sets C, F, G, A, B, D, E, H, I and J.

Optionally, the server may further perform descending order arrangement on the data of the plurality of water source monitoring positioning points in sequence according to the descending order of the timestamp values of the data of each water source monitoring positioning point, so as to obtain an initial water source monitoring positioning point data set. 203. And screening data of the initial water source monitoring positioning point data set to obtain a target water source monitoring track data set.

Namely, the terminal deletes the abnormal track point data to obtain a target water source monitoring track data set. It should be noted that, when the server extracts the stop point trajectory data of the target person, a large amount of positioning trajectory point data can be screened and extracted according to the preset extraction duration, so that the problem of dense positioning points in the stop area is avoided, the trajectory line is closer to the actual situation, and meanwhile, the stop point trajectory data characteristics are kept.

Optionally, the terminal sequentially filters an initial water source monitoring positioning point data set according to the timestamp value of each water source monitoring positioning point data, and retains any one of the water source monitoring positioning point data with the same timestamp value to obtain a filtered water source monitoring track point data set, further, the terminal may also set a preset number, and retains the water source monitoring positioning point data with the same timestamp value and the preset number to obtain a filtered water source monitoring track point data set, where a specific location is not limited; the terminal sequentially reads each track point data from the filtered water source monitoring track point data set, wherein each track point data comprises a corresponding longitude value and a corresponding latitude value; the terminal calculates the actual distance between each two adjacent track point data in sequence according to the corresponding longitude value and the corresponding latitude value, and obtains the duration information between each two adjacent track point data; and the terminal determines the patrol speed according to the actual distance and the duration information, and screens normal track point data from the filtered water source monitoring track point data set when the patrol speed is less than a preset speed threshold value to obtain a target water source monitoring track data set.

204. And calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result.

The preset data processing interface may include data transmission address, port, transmission protocol, and interface address information, and may further include other information, which is not limited herein, for example, the preset data processing interface is https:// xxx/app/trajectory-record/orbit-upload. Optionally, the terminal packages the unique task coding information and the target water source monitoring track data set into data to be processed according to a preset data format; the terminal writes data to be processed into a preset queue, calls a preset data processing interface through the preset queue, and uploads a target water source monitoring track data set to a target database according to unique task coding information to obtain response data; and the terminal analyzes the data of the response data to obtain an uploading result, wherein the uploading result comprises uploading success and uploading failure.

The preset queue may be a memory queue or a message queue, and is not limited herein. In addition, the preset data format may be a JS object numbered musical notation data format or an extensible markup language data format, and may also be other data formats, which are not specifically limited herein, for example, the preset data format may also be as follows:

205. and when the uploading result is uploading failure and the network quality is determined to be abnormal, caching the target water source monitoring track data set into a memory database according to the unique task coding information to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure.

It should be noted that the occurrence of the network quality abnormality refers to the existence of a weak network environment or a network disconnection condition in the network quality of the terminal, and is not limited herein. The terminal is an intelligent mobile device, the network is a mobile network or a wireless WIFI network, and the mobile network may be 3G, 4G or 5G, which is not limited herein.

Optionally, when the uploading result is uploading failure, the terminal acquires the position information of the target person and judges the network quality of the position information; when the network quality of the position information is abnormal, the terminal sets the unique task coding information as a target key, and sets a target water source monitoring track data set as a target value; the terminal updates the target key and the target value to a memory database to obtain a cached water source monitoring track data set, updates an uploading state corresponding to the cached water source monitoring track data set to be uploading failure, and takes an initial value of the uploading state as to-be-uploaded; and the terminal sets and displays the network early warning information so that the target personnel can adjust the network quality according to the network early warning information.

Further, the terminal acquires a corresponding information template according to the broken network or the weak network, generates early warning prompt information according to the corresponding information template, and displays the early warning prompt information, so that the target personnel can reconnect the network or enhance the network signal according to the early warning prompt information.

206. And performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, and drawing and displaying the cached water source monitoring track data set.

It should be noted that the terminal may further set data synchronization times, and when data synchronization fails within the data synchronization times, the terminal may send warning information to the target person, so that the target person can deal with the network connection problem in time, and it is ensured that communication is normal. Optionally, the terminal calls a preset service at regular time, and queries a cached water source monitoring track data set from a memory database, wherein the uploading state corresponding to the cached water source monitoring track data set is to-be-uploaded or uploading failure; the terminal carries out data synchronization operation on the cached water source monitoring track data set to obtain a synchronization result; when the synchronization result is synchronization failure, the terminal recalls and executes the preset service, and the preset service is stopped to be called until the data synchronization is successful; and when the synchronization result is that the synchronization is successful, the terminal updates the uploading state corresponding to the cached water source monitoring track data set into the uploading success, calls a preset map engine, and performs graphic drawing and display on the cached water source monitoring track data set. The preset map engine is connected with the local map database and can display the water source monitoring track data set (the target water source monitoring track data set and the cached water source monitoring track data set) in the terminal in combination with the water source monitoring track data set successfully uploaded to the server.

Further, the terminal acquires identification information of a water source to be monitored, and the terminal queries a target database according to the identification information to obtain a preset monitoring track data set corresponding to the water source to be monitored; and drawing and displaying the preset monitoring track data set by the terminal so that the target personnel can determine whether the target water source monitoring track data set deviates from the preset monitoring track data set in real time.

It can be understood that before the patrol task is executed, the terminal can reasonably formulate the water source monitoring task based on the historical water source monitoring track data set to obtain the corresponding preset monitoring track data set, so that the water source monitoring is more efficient. In the process of executing the patrol task, the terminal positions and displays the patrol position in real time for the target personnel in the patrol process, so that the target personnel can check the specific position of the current patrol at any time, and the accuracy can be within 10 m. Meanwhile, target personnel can refer to preset monitoring track data corresponding to the water source monitoring task to conduct water source patrol, and therefore the water source patrol work can be completed quickly and at high quality. Further, after the patrol is executed, based on the uploaded target water source monitoring track data set, the terminal can perform risk assessment on the patrol effect to obtain an assessment result, so that the assessment result can be based on the data, and the accuracy of the assessment result is improved.

In the embodiment of the invention, the track data is introduced to be applied to the water source monitoring work, the deviation rectification processing is carried out on the water source monitoring positioning point data to obtain the target water source monitoring track data set, and when the network quality is abnormal, the target water source monitoring track data set is cached in the memory database and is submitted and displayed again, so that the water source patrol personnel can know the monitoring progress in real time, can monitor the unfamiliar water source and supervise the monitoring execution condition in real time by the management personnel, the water source monitoring quality and the monitoring efficiency are improved, the drinking water safety is improved, and the life health of people is maintained. This scheme can be applied to in the wisdom environmental protection field to promote the construction in wisdom city.

With reference to fig. 3, the method for processing the water source monitoring trajectory data according to the embodiment of the present invention is described above, and a water source monitoring trajectory data processing apparatus according to the embodiment of the present invention is described below, where an embodiment of the water source monitoring trajectory data processing apparatus according to the embodiment of the present invention includes:

the deviation rectifying module 301 is configured to obtain data of a plurality of water source monitoring positioning points of a target person and unique task code information, and perform data deviation rectifying processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set;

the uploading module 302 is used for calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result;

the caching module 303 is configured to cache the target water source monitoring track data set into the memory database according to the unique task code information when the uploading result is that the uploading fails and it is determined that the network quality is abnormal, to obtain a cached water source monitoring track data set, and set an uploading state corresponding to the cached water source monitoring track data set as an uploading failure;

the drawing module 304 is configured to perform data synchronization processing on the cached water source monitoring track data set through a preset service, update an uploading state corresponding to the cached water source monitoring track data set to an uploading success when the data synchronization is successful, and draw and display the cached water source monitoring track data set.

Further, the target water source monitoring trajectory data set is stored in a block chain database, which is not limited herein.

In the embodiment of the invention, the track data is introduced to be applied to the water source monitoring work, the deviation rectification processing is carried out on the water source monitoring positioning point data to obtain the target water source monitoring track data set, and when the network quality is abnormal, the target water source monitoring track data set is cached in the memory database and is submitted and displayed again, so that the water source patrol personnel can know the monitoring progress in real time, can monitor the unfamiliar water source and supervise the monitoring execution condition in real time by the management personnel, the water source monitoring quality and the monitoring efficiency are improved, the drinking water safety is improved, and the life health of people is maintained.

Referring to fig. 4, another embodiment of the water source monitoring trajectory data processing apparatus according to the embodiment of the present invention includes:

the deviation rectifying module 301 is configured to obtain data of a plurality of water source monitoring positioning points of a target person and unique task code information, and perform data deviation rectifying processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set;

the uploading module 302 is used for calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result;

the caching module 303 is configured to cache the target water source monitoring track data set into the memory database according to the unique task code information when the uploading result is that the uploading fails and it is determined that the network quality is abnormal, to obtain a cached water source monitoring track data set, and set an uploading state corresponding to the cached water source monitoring track data set as an uploading failure;

the drawing module 304 is configured to perform data synchronization processing on the cached water source monitoring track data set through a preset service, update an uploading state corresponding to the cached water source monitoring track data set to an uploading success when the data synchronization is successful, and draw and display the cached water source monitoring track data set.

Optionally, the deviation rectifying module 301 further includes:

the acquisition unit 3011 is configured to acquire a plurality of water source monitoring and positioning point data of a target person within a preset time period, where the plurality of water source monitoring and positioning point data have the same unique task code information;

the sequencing unit 3012 is configured to sequence the data of the multiple water source monitoring positioning points in sequence according to the size of the timestamp value of the data of each water source monitoring positioning point, so as to obtain an initial water source monitoring positioning point data set;

and the screening unit 3013 is configured to perform data screening on the initial water source monitoring positioning point data set to obtain a target water source monitoring track data set.

Optionally, the screening unit 3013 may be further specifically configured to:

sequentially screening an initial water source monitoring positioning point data set according to the time stamp value of each water source monitoring positioning point data, and reserving any water source monitoring positioning point data with the same time stamp value to obtain a filtered water source monitoring track point data set;

sequentially reading each track point data from the filtered water source monitoring track point data set, wherein each track point data comprises a corresponding longitude value and a corresponding latitude value;

sequentially calculating the actual distance between each two adjacent track point data according to the corresponding longitude value and the corresponding latitude value, and acquiring the duration information between each two adjacent track point data;

and determining the patrol speed according to the actual distance and the duration information, and screening normal track point data from the filtered water source monitoring track point data set when the patrol speed is less than a preset speed threshold value to obtain a target water source monitoring track data set.

Optionally, the uploading module 302 may be further specifically configured to:

packaging the unique task coding information and the target water source monitoring track data set into data to be processed according to a preset data format;

writing data to be processed into a preset queue, calling a preset data processing interface through the preset queue, and uploading a target water source monitoring track data set to a target database according to unique task coding information to obtain response data;

and analyzing the response data to obtain an uploading result, wherein the uploading result comprises uploading success and uploading failure.

Optionally, the caching module 303 may be further specifically configured to:

when the uploading result is uploading failure, acquiring the position information of the target person, and judging the network quality of the position information;

when the network quality of the position information is abnormal, setting the unique task coding information as a target key, and setting a target water source monitoring track data set as a target value;

updating the target key and the target value into a memory database to obtain a cached water source monitoring track data set, updating an uploading state corresponding to the cached water source monitoring track data set into uploading failure, and setting an initial value of the uploading state as to-be-uploaded;

and setting and displaying the network early warning information so that the target personnel can adjust the network quality according to the network early warning information.

Optionally, the drawing module 304 may be further specifically configured to:

calling a preset service regularly, and inquiring a cached water source monitoring track data set from a memory database, wherein the uploading state corresponding to the cached water source monitoring track data set is to-be-uploaded or uploading failure;

carrying out data synchronization operation on the cached water source monitoring track data set to obtain a synchronization result;

when the synchronization result is synchronization failure, the preset service is called again and executed, and the calling of the preset service is stopped until the data synchronization is successful;

and when the synchronization result is that the synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, calling a preset map engine, and carrying out graphic drawing and displaying on the cached water source monitoring track data set.

Optionally, the water source monitoring trajectory data processing apparatus further includes:

the query module 305 is configured to obtain identification information of a water source to be monitored, and query the target database according to the identification information to obtain a preset monitoring track data set corresponding to the water source to be monitored;

and the display module 306 is configured to draw and display the preset monitoring trajectory data set, so that the target person determines whether the target water source monitoring trajectory data set deviates from the preset monitoring trajectory data set in real time.

In the embodiment of the invention, the track data is introduced to be applied to the water source monitoring work, the deviation rectification processing is carried out on the water source monitoring positioning point data to obtain the target water source monitoring track data set, and when the network quality is abnormal, the target water source monitoring track data set is cached in the memory database and is submitted and displayed again, so that the water source patrol personnel can know the monitoring progress in real time, can monitor the unfamiliar water source and supervise the monitoring execution condition in real time by the management personnel, the water source monitoring quality and the monitoring efficiency are improved, the drinking water safety is improved, and the life health of people is maintained. This scheme can be applied to in the wisdom environmental protection field to promote the construction in wisdom city.

Fig. 3 and 4 describe the water source monitoring trajectory data processing apparatus in the embodiment of the present invention in detail from the perspective of modularization, and the water source monitoring trajectory data processing apparatus in the embodiment of the present invention is described in detail from the perspective of hardware processing.

Fig. 5 is a schematic structural diagram of a water source monitoring trajectory data processing apparatus 500 according to an embodiment of the present invention, which may include one or more processors (CPUs) 510 (e.g., one or more processors) and a memory 520, and one or more storage media 530 (e.g., one or more mass storage devices) storing applications 533 or data 532. Memory 520 and storage media 530 may be, among other things, transient or persistent storage. The program stored in the storage medium 530 may include one or more modules (not shown), each of which may include a series of instruction operations in the water source monitoring trajectory data processing apparatus 500. Further, the processor 510 may be configured to communicate with the storage medium 530, and execute a series of instruction operations in the storage medium 530 on the water source monitoring trajectory data processing device 500.

The water source monitoring trajectory data processing device 500 may also include one or more power supplies 540, one or more wired or wireless network interfaces 550, one or more input-output interfaces 560, and/or one or more operating systems 531, such as Windows Server, Mac OS X, Unix, Linux, FreeBSD, and the like. Those skilled in the art will appreciate that the configuration of the water source monitoring trajectory data processing apparatus shown in fig. 5 does not constitute a limitation of the water source monitoring trajectory data processing apparatus, and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

The present invention also provides a computer-readable storage medium, which may be a non-volatile computer-readable storage medium, and which may also be a volatile computer-readable storage medium, having stored therein instructions, which, when executed on a computer, cause the computer to execute the steps of the water source monitoring trajectory data processing method.

The invention also provides a water source monitoring trajectory data processing device, which comprises a memory and a processor, wherein the memory stores instructions, and the instructions, when executed by the processor, enable the processor to execute the steps of the water source monitoring trajectory data processing method in the above embodiments.

Further, the computer-readable storage medium may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function, and the like; the storage data area may store data created according to the use of the blockchain node, and the like.

The block chain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like. A block chain (Blockchain), which is essentially a decentralized database, is a series of data blocks associated by using a cryptographic method, and each data block contains information of a batch of network transactions, so as to verify the validity (anti-counterfeiting) of the information and generate a next block. The blockchain may include a blockchain underlying platform, a platform product service layer, an application service layer, and the like.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A water source monitoring track data processing method is characterized by comprising the following steps:

acquiring data of a plurality of water source monitoring positioning points of a target person and unique task coding information, and performing data correction processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set;

calling a preset data processing interface, uploading the target water source monitoring track data set to a target database according to the unique task coding information, and obtaining an uploading result;

when the uploading result is uploading failure and the network quality is determined to be abnormal, caching the target water source monitoring track data set into a memory database according to the unique task coding information to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure;

and performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, and drawing and displaying the cached water source monitoring track data set.

2. The water source monitoring track data processing method as recited in claim 1, wherein the obtaining of the data of the plurality of water source monitoring positioning points and the unique task code information of the target person and the performing of the data correction processing on the data of the plurality of water source monitoring positioning points to obtain the target water source monitoring track data set comprises:

collecting a plurality of water source monitoring and positioning point data of a target person within a preset time, wherein the water source monitoring and positioning point data have the same unique task coding information;

sequencing the data of the plurality of water source monitoring positioning points in sequence according to the time stamp value of the data of each water source monitoring positioning point to obtain an initial water source monitoring positioning point data set;

and screening the data set of the initial water source monitoring positioning point to obtain a target water source monitoring track data set.

3. The water source monitoring trajectory data processing method of claim 2, wherein the step of performing data screening on the initial water source monitoring positioning point data set to obtain a target water source monitoring trajectory data set comprises:

sequentially screening an initial water source monitoring positioning point data set according to the time stamp value of each water source monitoring positioning point data, and reserving any water source monitoring positioning point data with the same time stamp value to obtain a filtered water source monitoring track point data set;

sequentially reading each track point data from the filtered water source monitoring track point data set, wherein each track point data comprises a corresponding longitude value and a corresponding latitude value;

sequentially calculating the actual distance between each two adjacent track point data according to the corresponding longitude value and the corresponding latitude value, and acquiring the duration information between each two adjacent track point data;

and determining a patrol speed according to the actual distance and the duration information, and when the patrol speed is smaller than a preset speed threshold value, screening normal track point data from the filtered water source monitoring track point data set to obtain a target water source monitoring track data set.

4. The water source monitoring trajectory data processing method according to claim 1, wherein the invoking of a preset data processing interface uploads the target water source monitoring trajectory data set to a target database according to the unique task code information to obtain an upload result includes:

packaging the unique task coding information and the target water source monitoring track data set into data to be processed according to a preset data format;

writing the data to be processed into a preset queue, calling a preset data processing interface through the preset queue, and uploading the target water source monitoring track data set to a target database according to the unique task coding information to obtain response data;

and analyzing the response data to obtain an uploading result, wherein the uploading result comprises uploading success and uploading failure.

5. The water source monitoring trajectory data processing method according to claim 1, wherein when the uploading result is an uploading failure and it is determined that the network quality is abnormal, caching the target water source monitoring trajectory data set into a memory database according to the unique task code information to obtain a cached water source monitoring trajectory data set, and setting an uploading state corresponding to the cached water source monitoring trajectory data set as an uploading failure, includes:

when the uploading result is uploading failure, acquiring the position information of the target person, and judging the network quality of the position information;

when the network quality of the position information is abnormal, setting the unique task coding information as a target key and setting the target water source monitoring track data set as a target value;

updating the target key and the target value into a memory database to obtain a cached water source monitoring track data set, updating an uploading state corresponding to the cached water source monitoring track data set into uploading failure, and setting an initial value of the uploading state as to-be-uploaded;

and setting and displaying the network early warning information so that the target personnel can adjust the network quality according to the network early warning information.

6. The water source monitoring track data processing method according to claim 5, wherein the performing data synchronization processing on the cached water source monitoring track data set through a preset service until the data synchronization is successful, updating an uploading state corresponding to the cached water source monitoring track data set to be successful, and drawing and displaying the cached water source monitoring track data set comprises:

calling a preset service regularly, and inquiring a cached water source monitoring track data set from the memory database, wherein the uploading state corresponding to the cached water source monitoring track data set is to be uploaded or the uploading fails;

performing data synchronization operation on the cached water source monitoring track data set to obtain a synchronization result;

when the synchronization result is synchronization failure, the preset service is called again and executed, and the calling of the preset service is stopped until the data synchronization is successful;

and when the synchronization result is that the synchronization is successful, updating the uploading state corresponding to the cached water source monitoring track data set into the uploading success, calling a preset map engine, and carrying out graphic drawing and displaying on the cached water source monitoring track data set.

7. The water source monitoring trajectory data processing method according to any one of claims 1 to 6, wherein after the performing data synchronization processing on the cached water source monitoring trajectory data set through a preset service until the data synchronization is successful, updating an upload state corresponding to the cached water source monitoring trajectory data set to an upload state that is successful, and drawing and displaying the cached water source monitoring trajectory data set, the water source monitoring trajectory data processing method further comprises:

acquiring identification information of a water source to be monitored, and inquiring a target database according to the identification information to obtain a preset monitoring track data set corresponding to the water source to be monitored;

and drawing and displaying the preset monitoring track data set so that a target person can determine whether the target water source monitoring track data set deviates from the preset monitoring track data set in real time.

8. A water source monitoring trajectory data processing apparatus, characterized in that the water source monitoring trajectory data processing apparatus includes:

the deviation rectifying module is used for acquiring data of a plurality of water source monitoring positioning points and unique task coding information of a target person, and performing data deviation rectifying processing on the data of the plurality of water source monitoring positioning points to obtain a target water source monitoring track data set;

the uploading module is used for calling a preset data processing interface and uploading the target water source monitoring track data set to a target database according to the unique task coding information to obtain an uploading result;

the cache module is used for caching the target water source monitoring track data set into a memory database according to the unique task coding information when the uploading result is uploading failure and the network quality is determined to be abnormal, so as to obtain a cached water source monitoring track data set, and setting the uploading state corresponding to the cached water source monitoring track data set as uploading failure;

and the drawing module is used for carrying out data synchronization processing on the cached water source monitoring track data set through a preset service, updating the uploading state corresponding to the cached water source monitoring track data set into successful uploading when the data synchronization is successful, and drawing and displaying the cached water source monitoring track data set.

9. A water source monitoring trajectory data processing apparatus, characterized by comprising: a memory and at least one processor, the memory having instructions stored therein;

the at least one processor invokes the instructions in the memory to cause the water source monitoring trajectory data processing device to perform the water source monitoring trajectory data processing method of any one of claims 1-7.

10. A computer readable storage medium having instructions stored thereon, wherein the instructions, when executed by a processor, implement the water source monitoring trajectory data processing method of any one of claims 1-7.

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