CN111126751A - Intelligent inspection and safety monitoring early warning system and method based on mobile interconnection - Google Patents

Abstract

The invention discloses an intelligent inspection and safety monitoring early warning system and method based on mobile interconnection, wherein the system comprises: the system comprises a management PC terminal, a cloud server and an inspection mobile terminal, wherein the management PC terminal and the inspection mobile terminal carry out information interaction through the cloud server; the management PC terminal is used for formulating and pushing an inspection task, the inspection mobile terminal is used for executing the inspection task and feeding back a task execution result, and the cloud server is used for storing the management PC terminal and relevant data of the inspection mobile terminal and completing personnel management, information integration, problem archiving and monitoring and early warning functions. The system and the method integrate the mobile interconnection technology into the traditional routing inspection safety monitoring process, realize the digitization and the intellectualization of routing inspection, improve the routing inspection efficiency and the quality, improve the timeliness and the accuracy of engineering safety monitoring and early warning, and can meet various requirements of the engineering safety monitoring and early warning.

Description

Intelligent inspection and safety monitoring early warning system and method based on mobile interconnection

Technical Field

The invention relates to the technical field of hydraulic engineering safety monitoring and early warning, in particular to an intelligent routing inspection and safety monitoring and early warning system and method based on mobile interconnection.

Background

At present, along with the continuous promotion of long-distance water diversion projects, the project safety problem is more and more emphasized, and the long-distance water diversion projects are large in scale, long in water delivery line, wide in related range and various in water delivery buildings. In the current safe operation process of long-distance linear engineering, more departments and major are involved, managers need to organize information electromechanics, safety monitoring, civil engineering greening, water quality safety, scheduling operation, flood prevention emergency, safety protection and safety production for 30 major professionals of 8 types to carry out all-round inspection tour, and the involved safety problems are very detailed. In the traditional inspection process, an inspector not only carries a necessary maintenance tool, but also carries equipment ledgers of corresponding sections, question bank data and the like. And the problems found in the routing inspection process need to be photographed, filed and reported. The inspection personnel finishes the acquisition of facility problem data when in inspection, and can only archive and report the problems found by one-time inspection through the computer after returning to the work area. The inspection process has the following three problems:

1. the polling personnel are inconvenient to carry various paper data;

2. the workload is increased by problem filing, the information transfer efficiency is low, and the updating and maintenance of the facility ledger are complex;

3. manual recording is prone to information loss.

The traditional patrol means is relatively lagged, the information timeliness is poor, the statistics and query are difficult, and the patrol maintenance work is not easy to monitor.

Therefore, how to provide an efficient and convenient inspection and safety monitoring and early warning method is a problem that needs to be solved urgently by technical personnel in the field.

Disclosure of Invention

In view of the above, the invention provides an intelligent routing inspection and safety monitoring early warning system and method based on mobile interconnection, which integrate the mobile interconnection technology into the traditional routing inspection safety monitoring process, thereby realizing digitization and intellectualization of routing inspection, improving routing inspection efficiency and quality, and improving timeliness and accuracy of engineering safety monitoring early warning.

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

in one aspect, the invention provides an intelligent routing inspection and safety monitoring early warning system based on mobile interconnection, which comprises: the system comprises a management PC terminal, a cloud server and an inspection mobile terminal, wherein the management PC terminal and the inspection mobile terminal carry out information interaction through the cloud server;

the management PC terminal is used for formulating and pushing an inspection task, the inspection mobile terminal is used for executing the inspection task and feeding back a task execution result, and the cloud server is used for storing the management PC terminal and relevant data of the inspection mobile terminal and completing personnel management, information integration, problem archiving and monitoring and early warning functions.

Further, the cloud server comprises:

the database is used for storing various types of data including personnel related information, monitoring instrument information, inspection task related information, problem feedback information and emergency disposal information;

the user management module is used for personnel check-in, counting check-in data and feeding back user information logged in the inspection mobile terminal to the inspection mobile terminal;

the information input module is used for formulating an information input table according to the classification information of the monitoring instrument, inputting the information of the monitoring instrument into the information input table and storing the information into the database;

the inspection recording module is used for recording time and position information of a user of the inspection mobile terminal for executing tasks and storing the time and position information into the database;

the problem management module is used for assisting and recording the problems fed back by the inspection mobile terminal, classifying and archiving various problems and storing the various problems in the database;

the monitoring and early warning module is used for analyzing related parameters of the monitoring instrument, marking the monitoring instrument exceeding a preset early warning threshold value and sending early warning information to the inspection mobile terminal;

the emergency management module is used for carrying out accident identification on the problems fed back by the inspection mobile terminal and reporting the accidents after the problems are identified without errors;

the polling reporting module is used for reporting the task completion progress of each polling mobile terminal and the problems fed back in the task execution process to the management PC terminal;

and the comprehensive analysis module is used for analyzing and counting the data stored in the database and reporting the counting result to the management PC terminal.

Specifically, the user information comprises personal basic information, a to-be-completed routing inspection task and department contacts.

Furthermore, a GPS positioning system is installed on the inspection mobile terminal, and the position information can be reported in real time through a GPS positioning technology.

Furthermore, the management PC terminal, the inspection mobile terminal and the cloud server adopt a Web socket real-time data transmission technology for data interaction, and are in network connection through a 4G communication technology.

Further, the database comprises a personnel information base, a monitoring instrument information base, a patrol task information base, a problem feedback information base and an emergency treatment information base. The management PC terminal, the routing inspection mobile terminal and the cloud server share one database to achieve the effect of data unification.

Specifically, the personnel information base stores personal information of people such as departments, maintenance teams, patrol teams, system managers and the like related to work and operation safety and work attendance check-in conditions; the monitoring instrument information base stores monitoring data of each monitoring instrument, and the total number of the monitoring instruments is nine: osmometer, joint meter, steel bar meter, strain gauge, multipoint displacement meter, soil pressure meter, fixed inclinometer, soil body displacement meter and settlement meter; the patrol task information base stores work tasks set by managers for patrol teams and maintenance teams and the execution conditions of all the tasks; the problem feedback information base contains various problems reported by the patrolman in the patrolling process; the emergency disposal information base stores disposal flows aiming at various problems and emergency disposal flow information of emergencies.

On the other hand, the invention also provides an intelligent routing inspection and safety monitoring early warning method based on mobile interconnection, which comprises the following steps:

creating a database: establishing a database containing personnel information, monitoring instrument information, inspection task information, problem feedback information and emergency treatment information;

formulating a polling task: respectively formulating inspection tasks according to professional differences of maintenance of each section, and storing the online formulated inspection tasks into a database;

pushing and inspecting tasks: pushing the polling tasks to corresponding polling mobile terminals, and displaying task details on the polling mobile terminals;

and executing a polling task: the method comprises the steps that a polling task is received at a polling mobile terminal, the polling task is executed, a polling route is recorded, and task execution progress and polling route information are uploaded to a database;

problem feedback: reporting and storing problems found in the task execution process into a database;

accident treatment: performing accident identification on the reported problems, reporting and processing the problems identified as accidents;

monitoring and early warning: and analyzing and calculating the data of various monitoring instruments, judging whether the data exceed an early warning threshold value, marking the monitoring instruments exceeding the early warning threshold value and reporting the monitoring instruments.

Specifically, the task details include information of execution time, place, route, problem requiring attention, and the like.

Furthermore, in a problem feedback link, if the polling personnel finds any problem in the task execution process, the problem can be recorded in the polling mobile terminal, the problem feedback time is greatly shortened by setting the information of the problem category, the specific problem and the like into a structured data menu, and the feedback information is directly put in a warehouse and automatically classified and stored.

Further, the intelligent routing inspection and safety monitoring early warning method based on mobile internet further comprises data statistics: and analyzing and counting the data stored in the database, and visually displaying the data in the form of a histogram, a histogram or a line graph.

Further, the accident handling process specifically comprises the following steps:

response level evaluation: inputting basic information of reported problems, and evaluating the response level of the reported problems according to preset case base data and corresponding specifications;

early warning and upgrading: when the response level of the reported problem reaches the accident level, carrying out early warning upgrade and reporting to the management PC terminal;

accident treatment: the management PC terminal dispatches a corresponding emergency team and collects materials for accident treatment according to the conditions of personnel and materials at the accident site, and sends treatment information to the inspection mobile terminal;

emergency termination: and when the accident is processed to remove the engineering dangerous case, the environment reaches the standard, and secondary and derivative disasters and accident hidden dangers are eliminated, the accident is emergently terminated, and the processing result and the processing scheme are uploaded to the case library.

Further, the process of monitoring and early warning specifically comprises the following steps:

step 1: preprocessing the monitoring data;

step 2: analyzing the preprocessed data, determining the safety state of each detection item by adopting a most dangerous principle, and taking the data with the highest evaluation scale in all detection indexes as the evaluation result of the corresponding detection item;

and step 3: and repeating the step 1-2 once per hour, storing the analysis result, and pushing the analysis result reaching the alarm level to the inspection mobile terminal.

Further, the process of preprocessing the monitoring data specifically includes:

for the problem of data loss, individual loss values are ignored when data with high frequency are collected;

processing the abnormal value according to the Laplace criterion, wherein the formula is as follows:

in the formula, x_iIn order to obtain the value to be checked,

counting the average value of the historical monitoring data, wherein sigma is mean square error;

and judging the data meeting the formula as abnormal data and removing the abnormal data.

According to the technical scheme, compared with the prior art, the system and the method for intelligent routing inspection and safety monitoring early warning based on mobile interconnection are disclosed, the system and the method integrate the mobile interconnection technology into the traditional routing inspection safety monitoring process, realize digitization and intellectualization of routing inspection, improve routing inspection efficiency and quality, improve timeliness and accuracy of engineering safety monitoring early warning, and can meet various requirements of engineering safety monitoring early warning.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic diagram of a network architecture of an intelligent inspection and safety monitoring and early warning system based on mobile internet according to the present invention;

fig. 2 is a schematic structural diagram of a cloud server according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an overall functional framework of an intelligent routing inspection and safety monitoring early warning system based on mobile interconnection in the embodiment of the present invention;

FIG. 4 is a schematic diagram of a routing plan making interface in an embodiment of the present invention;

FIG. 5 is a schematic diagram of a to-do task notification interface according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of an inspection task execution interface according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a tour inspection recording interface in an embodiment of the invention;

FIG. 8 is a schematic diagram of a patrol feedback interface in an embodiment of the present invention;

FIG. 9 is a schematic diagram of a monitor and warning interface according to an embodiment of the present disclosure;

FIG. 10 is a schematic diagram of an emergency alert interface in accordance with an embodiment of the present invention;

FIGS. 11 and 12 are schematic diagrams of an emergency process flow publishing interface in an embodiment of the invention;

fig. 13 is a schematic flow chart of an intelligent inspection and safety monitoring early warning method based on mobile internet according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

On one hand, the embodiment of the invention discloses an intelligent routing inspection and safety monitoring early warning system based on mobile interconnection, which comprises: the system comprises a management PC terminal 1, a cloud server 2 and an inspection mobile terminal 3, wherein the management PC terminal 1 and the inspection mobile terminal 3 carry out information interaction through the cloud server 2;

the management PC terminal 1 is used for formulating and pushing the routing inspection task, the routing inspection mobile terminal 3 is used for executing the routing inspection task and feeding back a task execution result, and the cloud server 2 is used for storing relevant data of the management PC terminal 1 and the routing inspection mobile terminal 3 and completing personnel management, information integration, problem archiving and monitoring and early warning functions.

In a specific embodiment, the cloud server 2 includes:

the database 21 is used for storing various types of data including personnel related information, monitoring instrument information, inspection task related information, problem feedback information and emergency disposal information;

the user management module 22 is used for personnel check-in, counting check-in data and feeding back user information logged in the inspection mobile terminal 3 to the inspection mobile terminal 3;

the information recording module 23 is used for making an information recording table according to the classification information of the monitoring instrument, recording the information of the monitoring instrument into the information recording table, and storing the information into the database 21;

the patrol inspection recording module 24 is used for recording the time and position information of the task executed by the user of the patrol inspection mobile terminal 3 and storing the time and position information into the database 21;

the problem management module 25 is used for assisting and recording the problems fed back by the inspection mobile terminal 3, classifying and archiving various problems and storing the various problems in the database 21;

the monitoring and early warning module 26 is used for analyzing relevant parameters of the monitoring instruments, marking the monitoring instruments exceeding a preset early warning threshold value and sending early warning information to the routing inspection mobile terminal 3;

the emergency management module 27 is used for performing accident identification on the problems fed back by the inspection mobile terminal 3 and reporting the accidents after the problems are identified without errors;

the polling reporting module 28 is used for reporting the task completion progress of each polling mobile terminal 3 and the problems fed back in the task execution process to the management PC terminal 1;

and the comprehensive analysis module 29 is configured to perform analysis statistics on the data stored in the database, and report the statistical result to the management PC terminal 1.

Specifically, the user information comprises personal basic information, a to-be-completed routing inspection task and department contacts.

In the present embodiment, the user management module 22 includes a user check-in function, counts check-in conditions of each department, and reflects the check-in conditions in a graph form.

The problem management module 25 can classify and file various problems, help the inspection personnel to efficiently feed back the problems in the form of a structured data menu, and store the feedback information in a storage way through a 4G communication technology.

The emergency management module 27 may analyze the problems found and fed back during the inspection process of the personnel, and issue an emergency handling procedure for such a large emergency after reporting the accidents that can be directly identified, such as obvious water quality deterioration, fire accidents, traffic accidents, etc., which are defined as serious problems.

Meanwhile, the manager can check the patrol completion condition of each team and the problems found in the patrol process at the management PC terminal 1.

The comprehensive analysis module 29 may analyze and count data based on various keywords based on the personnel check-in information and the question feedback information in the database 21, and visually display the data in various forms such as a histogram, a line graph, and the like.

The user can check the personal basic information of the current login user, the inspection task to be completed and department contacts at the inspection mobile terminal; in the using process, opinion feedback can be carried out aiming at the current terminal.

In a specific embodiment, the patrol mobile terminal 3 is provided with a GPS positioning system, and can report the position information in real time by using a GPS positioning technology.

In a specific embodiment, the management PC terminal 1 and the inspection mobile terminal 3 perform data interaction with the cloud server 2 by using a Websocket real-time data transmission technology, and perform network connection by using a 4G communication technology.

In one particular embodiment, the database 21 includes a personnel information base, a monitoring instrument information base, an inspection task information base, a problem feedback information base, and an emergency treatment information base. The management PC terminal, the routing inspection mobile terminal and the cloud server share one database to achieve the effect of data unification.

Specifically, the personnel information base stores personal information of people such as departments, maintenance teams, patrol teams, system managers and the like related to work and operation safety and work attendance check-in conditions; the monitoring instrument information base stores monitoring data of each monitoring instrument, and the total number of the monitoring instruments is nine: osmometer, joint meter, steel bar meter, strain gauge, multipoint displacement meter, soil pressure meter, fixed inclinometer, soil body displacement meter and settlement meter; the patrol task information base stores work tasks set by managers for patrol teams and maintenance teams and the execution conditions of all the tasks; the problem feedback information base contains various problems reported by the patrolman in the patrolling process; the emergency disposal information base stores disposal flows aiming at various problems and emergency disposal flow information of emergencies.

Referring to fig. 3, for the overall functional framework of the system, the following description is made of a specific operation flow of the system provided by the present embodiment for the user to complete the polling and monitoring pre-warning operations:

step one, routing inspection task allocation and execution:

step 101, task formulation: and the manager makes a corresponding inspection plan on line in the management PC terminal according to the inspection specifications of each specialty and the specific conditions of the sections, and issues the tasks. The inspection plan is specifically shown in fig. 4.

Step 102, getting tasks: the patrol personnel log in and sign in at the patrol mobile terminal and get the patrol tasks of the same day.

And 103, task execution, namely clicking the inspection task to be executed in the unfinished option after the inspection unit is reached, starting to inspect according to the specified inspection content, clicking the finished task after the inspection of all the inspection units is finished, finishing the inspection of the current task, and signing off. See in particular fig. 5, 6 and 7.

Step 104, question feedback: when the inspection unit is inspected according to inspection standards, if problems exist in the field, firstly classifying the problems according to inspection contents, entering a problem description interface, filling problem description, problem grades and clicking to select the longitude and latitude of the problem occurrence position in the interface, then shooting a problem picture, and finally clicking a 'store the problem' button to report to a cloud server. See in particular fig. 8. When an undeterminable problem or a serious dangerous situation is found in engineering patrol, engineering patrol management personnel should be immediately reported.

Step two, monitoring instrument early warning:

and after the staff managing the PC terminal and the patrol mobile terminal receive the alarm information sent by the cloud server, dispatching related staff to carry out manual patrol confirmation. The mobile terminal patrol warning is shown in fig. 9.

Step three, emergency treatment of emergency:

and 301, discovering a major risk in the inspection process, and immediately reporting to the section manager. The basic information of the emergency is managed and input, the system can automatically evaluate the response level of the emergency according to the case base information and the corresponding standard, and immediately send the alarm to the mobile terminal to inform all departments of coping with the risk at any time, as shown in fig. 10.

Step 302, early warning and upgrading: when the emergency develops to a serious situation, the emergency can be early-warned and upgraded and sent to the inspection mobile terminal to remind relevant personnel.

Step 303, dispatching a professional group: according to the conditions of local personnel and materials, corresponding rescue teams are dispatched and the materials are collected. And sending the relevant handling information to the inspection mobile terminal. See in particular fig. 11 and 12.

Step 304, emergency termination: when the scene of the event is controlled, the engineering dangerous case is relieved, the environment meets the relevant standard, and the secondary disaster, the derivative disaster and the accident hidden danger are eliminated, the emergency termination is carried out on the event.

On the other hand, referring to fig. 13, the embodiment of the invention also discloses an intelligent routing inspection and safety monitoring early warning method based on mobile internet, which comprises the following steps:

s1, creating a database: establishing a database containing personnel information, monitoring instrument information, inspection task information, problem feedback information and emergency treatment information;

s2, formulating an inspection task: respectively formulating inspection tasks according to professional differences of maintenance of each section, and storing the online formulated inspection tasks into a database;

s3, pushing the polling task: pushing the polling tasks to corresponding polling mobile terminals, and displaying task details on the polling mobile terminals;

and S4, executing the inspection task: the method comprises the steps that a polling task is received at a polling mobile terminal, the polling task is executed, a polling route is recorded, and task execution progress and polling route information are uploaded to a database;

s5, question feedback: reporting and storing problems found in the task execution process into a database;

s6, accident handling: performing accident identification on the reported problems, reporting and processing the problems identified as accidents;

s7, monitoring and early warning: and analyzing and calculating the data of various monitoring instruments, judging whether the data exceed an early warning threshold value, marking the monitoring instruments exceeding the early warning threshold value and reporting the monitoring instruments.

Specifically, the task details include information of execution time, place, route, problem requiring attention, and the like.

In a specific embodiment, in the problem feedback link, if the inspection personnel finds any problem in the process of executing the task, the problem can be recorded in the inspection mobile terminal, the problem feedback time is greatly shortened by setting the information of the problem category, the specific problem and the like into a structured data menu, and the feedback information is directly put in a warehouse and automatically classified and stored.

In a specific embodiment, the intelligent routing inspection and security monitoring and early warning method based on mobile internet further includes S8: and (3) data statistics: and analyzing and counting the data stored in the database, and visually displaying the data in the form of a histogram, a histogram or a line graph.

In a specific embodiment, the accident handling process specifically includes the following steps:

response level evaluation: inputting basic information of reported problems, and evaluating the response level of the reported problems according to preset case base data and corresponding specifications;

early warning and upgrading: when the response level of the reported problem reaches the accident level, carrying out early warning upgrade and reporting to the management PC terminal;

accident treatment: the management PC terminal dispatches a corresponding emergency team and collects materials for accident treatment according to the conditions of personnel and materials at the accident site, and sends treatment information to the inspection mobile terminal;

emergency termination: and when the accident is processed to remove the engineering dangerous case, the environment reaches the standard, and secondary and derivative disasters and accident hidden dangers are eliminated, the accident is emergently terminated, and the processing result and the processing scheme are uploaded to the case library.

In a specific embodiment, the process of monitoring and early warning specifically includes the following steps:

step 1: preprocessing the monitoring data;

step 2: analyzing the preprocessed data, determining the safety state of each detection item by adopting a most dangerous principle, and taking the data with the highest evaluation scale in all detection indexes as the evaluation result of the corresponding detection item;

and step 3: and repeating the step 1-2 once per hour, storing the analysis result, and pushing the analysis result reaching the alarm level to the inspection mobile terminal.

Specifically, in step 2, after the data preprocessing is finished, data analysis is performed, multiple types of detection indexes exist under each detection item, and each detection index is divided into 5 grades, which are: good, bad, dangerous, each rating level gives a corresponding qualitative or quantitative description of the severity level according to the difference of the detection index category. In order to embody the sensitivity and the importance of the most unfavorable detection indexes, the safety state of the detection item is determined by adopting the most dangerous principle, namely when a certain detection item is evaluated, the highest evaluation scale in all the detection indexes is adopted as the evaluation result of the detection item.

In a specific embodiment, the process of preprocessing the monitoring data specifically includes:

for the problem of data loss, individual loss values are ignored when data with high frequency are collected;

processing the abnormal value according to the Laplace criterion, wherein the formula is as follows:

in the formula, x_iIn order to obtain the value to be checked,

counting the average value of the historical monitoring data, wherein sigma is mean square error;

and judging the data meeting the formula as abnormal data and removing the abnormal data.

In summary, compared with the prior art, the intelligent inspection and safety monitoring and early warning system and method based on mobile internet disclosed by the embodiment of the invention have the following advantages:

1. the advantages of the mobile interconnection technology are fully utilized, the defects of time delay and low efficiency caused by traditional paper record and unified filing and reporting are overcome, various information is transmitted and issued in real time, and the informatization construction of an engineering site is greatly accelerated.

2. Various monitoring data are automatically processed and calculated, and early warning information is automatically pushed to a mobile terminal, so that the accuracy, high efficiency and timeliness of engineering safety monitoring and early warning are really achieved, and greater engineering risks are avoided.

3. The complete emergency disposal process is from the response level evaluation of the emergency, the dispatching of professional groups and the collection of materials to the emergency termination, all information is released on line in real time, and each terminal can receive and check the information at any time, so that the working efficiency is greatly improved compared with the conventional telephone notification. In the actual operation process, various emergencies can be processed in time, and further risk upgrading is prevented.

Therefore, the method provided by the invention has the advantages of complete information, standard flow, convenience in implementation, reasonable logic, strong operability and strong reliability, greatly improves the all-round management and working efficiency of the safety monitoring and early warning process, saves the time cost and can ensure that various requirements of engineering safety monitoring and early warning are met.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides an intelligence is patrolled and examined and safety monitoring early warning system based on remove interconnection which characterized in that includes: the system comprises a management PC terminal, a cloud server and an inspection mobile terminal, wherein the management PC terminal and the inspection mobile terminal carry out information interaction through the cloud server;

the management PC terminal is used for formulating and pushing an inspection task, the inspection mobile terminal is used for executing the inspection task and feeding back a task execution result, and the cloud server is used for storing the management PC terminal and relevant data of the inspection mobile terminal and completing personnel management, information integration, problem archiving and monitoring and early warning functions.

2. The intelligent tour inspection and safety monitoring and early warning system based on mobile internet according to claim 1, wherein the cloud server comprises:

the database is used for storing various types of data including personnel related information, monitoring instrument information, inspection task related information, problem feedback information and emergency disposal information;

the user management module is used for personnel check-in, counting check-in data and feeding back user information logged in the inspection mobile terminal to the inspection mobile terminal;

the information input module is used for formulating an information input table according to the classification information of the monitoring instrument, inputting the information of the monitoring instrument into the information input table and storing the information into the database;

the inspection recording module is used for recording time and position information of a user of the inspection mobile terminal for executing tasks and storing the time and position information into the database;

the problem management module is used for assisting and recording the problems fed back by the inspection mobile terminal, classifying and archiving various problems and storing the various problems in the database;

the monitoring and early warning module is used for analyzing related parameters of the monitoring instrument, marking the monitoring instrument exceeding a preset early warning threshold value and sending early warning information to the inspection mobile terminal;

the emergency management module is used for carrying out accident identification on the problems fed back by the inspection mobile terminal and reporting the accidents after the problems are identified without errors;

the polling reporting module is used for reporting the task completion progress of each polling mobile terminal and the problems fed back in the task execution process to the management PC terminal;

and the comprehensive analysis module is used for analyzing and counting the data stored in the database and reporting the counting result to the management PC terminal.

3. The system according to claim 2, wherein the user information includes personal basic information, inspection tasks to be completed, and department contacts.

4. The intelligent tour inspection and safety monitoring and early warning system based on mobile internet according to claim 2, wherein the database comprises a personnel information base, a monitoring instrument information base, a tour inspection task information base, a problem feedback information base and an emergency treatment information base.

5. An intelligent routing inspection and safety monitoring early warning method based on mobile interconnection is characterized by comprising the following steps:

creating a database: establishing a database containing personnel information, monitoring instrument information, inspection task information, problem feedback information and emergency treatment information;

formulating a polling task: respectively formulating inspection tasks according to professional differences of maintenance of each section, and storing the online formulated inspection tasks into a database;

pushing and inspecting tasks: pushing the polling tasks to corresponding polling mobile terminals, and displaying task details on the polling mobile terminals;

and executing a polling task: the method comprises the steps that a polling task is received at a polling mobile terminal, the polling task is executed, a polling route is recorded, and task execution progress and polling route information are uploaded to a database;

problem feedback: reporting and storing problems found in the task execution process into a database;

accident treatment: performing accident identification on the reported problems, reporting and processing the problems identified as accidents;

monitoring and early warning: and analyzing and calculating the data of various monitoring instruments, judging whether the data exceed an early warning threshold value, marking the monitoring instruments exceeding the early warning threshold value and reporting the monitoring instruments.

6. The intelligent inspection and safety monitoring and early warning method based on mobile internet according to claim 5, further comprising data statistics: and analyzing and counting the data stored in the database, and visually displaying the data in the form of a histogram, a histogram or a line graph.

7. The intelligent inspection and safety monitoring and early warning method based on mobile internet according to claim 5, wherein the accident handling process specifically comprises the following steps:

response level evaluation: inputting basic information of reported problems, and evaluating the response level of the reported problems according to preset case base data and corresponding specifications;

early warning and upgrading: when the response level of the reported problem reaches the accident level, carrying out early warning upgrade and reporting to the management PC terminal;

accident treatment: the management PC terminal dispatches a corresponding emergency team and collects materials for accident treatment according to the conditions of personnel and materials at the accident site, and sends treatment information to the inspection mobile terminal;

emergency termination: and when the accident is processed to remove the engineering dangerous case, the environment reaches the standard, and secondary and derivative disasters and accident hidden dangers are eliminated, the accident is emergently terminated, and the processing result and the processing scheme are uploaded to the case library.

8. The intelligent inspection and safety monitoring and early warning method based on mobile internet according to claim 5, wherein the process of monitoring and early warning specifically comprises the following steps:

step 1: preprocessing the monitoring data;

step 2: analyzing the preprocessed data, determining the safety state of each detection item by adopting a most dangerous principle, and taking the data with the highest evaluation scale in all detection indexes as the evaluation result of the corresponding detection item;

and step 3: and repeating the step 1-2 once per hour, storing the analysis result, and pushing the analysis result reaching the alarm level to the inspection mobile terminal.

9. The intelligent inspection and safety monitoring and early warning method based on mobile internet according to claim 8, wherein the process of preprocessing the monitoring data specifically comprises:

for the problem of data loss, individual loss values are ignored when data with high frequency are collected;

processing the abnormal value according to the Laplace criterion, wherein the formula is as follows:

in the formula, x_iIn order to obtain the value to be checked,

counting the average value of the historical monitoring data, wherein sigma is mean square error;

and judging the data meeting the formula as abnormal data and removing the abnormal data.

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