CN117192279A - Cable monitoring system and method for reporting fault information - Google Patents

Abstract

The embodiment of the application discloses a cable monitoring system and a method for reporting fault information, wherein the method comprises the following steps: under the condition that abnormal data are detected to exist, the abnormal data are stored, and the time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met, acquiring abnormal data corresponding to the time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; reporting the analysis result. According to the scheme, the monitored abnormal data and the generated time point are recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition is obtained, the reporting analysis result is generated according to the corresponding abnormal data and is reported, so that the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, when the fault is generated, the fault reason can be reasonably analyzed and given according to the data before the fault occurs.

Description

Cable monitoring system and method for reporting fault information

Technical Field

The embodiment of the application relates to the technical field of cable monitoring, in particular to a cable monitoring system and a cable monitoring method for reporting fault information.

Background

Along with the improvement of the intelligent degree of cable monitoring, various monitoring sensors are generally implanted in the cable, and sensor data are uploaded to a server platform for monitoring the cable operation condition by adopting an internet of things transmission mode.

In the existing cable monitoring technology, although the intelligent degree of cable monitoring is improved to some extent, the data reporting mode is still too simple, the efficiency is low, and the intelligent degree is required to be further improved.

Disclosure of Invention

The embodiment of the application provides a cable monitoring system and a cable monitoring method for reporting fault information, which solve the problems that a data reporting mode is still too simple, the efficiency is low and the intelligent degree is to be further improved in the prior art, so that the cable can directly report the fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs when the fault is generated.

In a first aspect, an embodiment of the present application provides a cable monitoring method for reporting fault information, including:

under the condition that abnormal data are detected to exist, the abnormal data are stored, and the time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result.

Optionally, the monitoring that abnormal data exists includes:

the change rate of the sensor acquisition value is monitored to be larger than a preset change rate; and/or the number of the groups of groups,

the magnitude of the sensor acquisition value is monitored to be larger than a preset abnormal value.

Optionally, the monitoring that the fault alarm condition is met includes:

the sensor acquisition value is monitored to be larger than a preset alarm value.

Optionally, the acquiring the abnormal data corresponding to the time point meeting the setting condition includes:

and acquiring abnormal data corresponding to a time point within a fixed time length from the time point when the fault alarm condition is met, wherein the fixed time length is independently set according to different sensor types.

Optionally, the generating a report analysis result according to the abnormal data corresponding to the time point meeting the setting condition includes:

calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time points meeting the setting conditions;

and generating a report analysis result according to the data value change rate and the jitter rate.

Optionally, the calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time point meeting the setting condition includes:

grouping the abnormal data corresponding to the time points meeting the setting conditions, and respectively calculating the change rate and the jitter rate of the data value corresponding to each grouping.

Optionally, the generating a report analysis result according to the data value change rate and the jitter rate includes:

acquiring a pre-generated analysis result table of different preset data value change rates and preset jitter rate combinations aiming at specific sensor types;

matching the preset data value change rate and a preset jitter rate combination based on the data value change rate and the jitter rate;

and determining the analysis result of the preset data value change rate and the preset jitter rate combination obtained by matching as a reporting analysis result.

In a second aspect, an embodiment of the present application further provides a cable monitoring system for reporting fault information, including:

the abnormal data storage module is used for storing the abnormal data and recording the time point of generating the abnormal data under the condition that the abnormal data are detected to exist;

the abnormal data acquisition module is used for acquiring abnormal data corresponding to a time point meeting the set condition under the condition that the fault alarm condition is monitored;

the analysis result generation module is used for generating a reporting analysis result according to the abnormal data corresponding to the time points meeting the set conditions;

and the analysis result reporting module is used for reporting the reporting analysis result.

In a third aspect, an embodiment of the present application further provides a cable monitoring device for reporting fault information, where the device includes:

one or more processors;

storage means for storing one or more programs,

and when the one or more programs are executed by the one or more processors, the one or more processors are enabled to realize the cable monitoring method for reporting the fault information.

In a fourth aspect, the embodiment of the present application further provides a storage medium storing computer executable instructions, where the computer executable instructions when executed by a computer processor are used to perform the cable monitoring method for reporting fault information according to the embodiment of the present application.

In the embodiment of the application, under the condition that abnormal data are monitored, the abnormal data are stored, and the time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

Drawings

Fig. 1 is a flowchart of a cable monitoring method for reporting fault information provided by an embodiment of the present application;

FIG. 2 is a flowchart of a method for determining whether monitored data is abnormal data according to an embodiment of the present application;

FIG. 3 is a flowchart of a method for obtaining abnormal data corresponding to a time point satisfying a set condition according to an embodiment of the present application;

FIG. 4 is a flowchart of a method for generating report analysis results according to an embodiment of the present application;

fig. 5 is a block diagram of a module structure of a cable monitoring method for reporting fault information according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a cable monitoring device for reporting fault information according to an embodiment of the present application.

Detailed Description

Embodiments of the present application will be described in further detail below with reference to the drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not limiting of embodiments of the application. It should be further noted that, for convenience of description, only some, but not all of the structures related to the embodiments of the present application are shown in the drawings.

Fig. 1 is a flowchart of a cable monitoring method for reporting fault information provided by an embodiment of the present application, as shown in fig. 1, specifically including:

step S101, when abnormal data are detected, the abnormal data are stored, and the time point of generating the abnormal data is recorded.

The abnormal data can be data which is acquired by the sensor and meets the preset abnormal conditions in the system. The sensor acquires data of corresponding types and uploads the data to the system, the system acquires the data acquired by the sensor in real time and monitors the data, whether the acquired data meets preset abnormal conditions is detected, different corresponding abnormal conditions are set for the data acquired by different types of sensors, when the abnormal data are monitored, the abnormal data are stored, and the time point of abnormal data generation is recorded. In one example, different preset change rates are set for different types of sensor acquisition data in the system, the acquisition data uploaded by the sensor are detected, when the change rate of the data value acquired by the sensor is detected to be larger than the preset change rate, the abnormal condition is met, the data meeting the abnormal condition is determined to be the abnormal data, the abnormal data is stored, and the time point of generating the abnormal data is recorded; the abnormal data and the time point of generating the abnormal data are stored and recorded, so that the abnormal data can be conveniently and directly fetched at the back, and the working efficiency is accelerated; the system sets a preset change rate of 30% for the acquired data of the temperature sensor, monitors that the change rate of the temperature value at 10 am is 40% and is larger than the corresponding preset change rate, saves the temperature data at 10 am, and records the time point.

Step S102, acquiring abnormal data corresponding to a time point meeting a set condition under the condition that the fault alarm condition is met, and generating a report analysis result according to the abnormal data corresponding to the time point meeting the set condition.

The fault alarm condition can be a set condition for judging whether the data has a fault or not and needing to alarm; the setting condition may be a condition of acquiring a corresponding point in time set for different types of sensor acquisition data. The system monitors the acquired data uploaded by the sensor in real time, substitutes the acquired data into the corresponding fault alarm conditions to judge, acquires the abnormal data of the type corresponding to the time point meeting the set condition when judging that the acquired data meets the corresponding fault alarm conditions, and generates a reporting analysis result according to the obtained abnormal data of the type corresponding to the time point meeting the set condition. In one example, the fault alarm condition set in the system is that the size of a sensor acquisition value is larger than a corresponding preset alarm value, when the sensor acquisition value is monitored to meet the fault alarm condition, an abnormal data acquisition instruction is triggered, abnormal data corresponding to a time point in a fixed time length from the time point when the fault alarm condition is met is acquired, the fixed time length is independently set according to different sensor types, the data value change rate and the jitter rate of the abnormal data corresponding to the time point meeting the set condition are calculated, and a report analysis result is generated according to the data value change rate and the jitter rate; when a fault is generated, the fault cause can be reasonably analyzed and given according to the data before the fault occurs, and the accuracy of the data analysis result is higher; the preset alarm value of the temperature is 55, the fixed time length of the independent setting is 30 minutes, the monitored temperature data value is 60, the monitored temperature data value is larger than the preset alarm value, the fault alarm condition is met, abnormal data corresponding to the time point within 30 minutes from the time point when the fault alarm condition is met are obtained, the data value change rate and the shaking rate of the obtained abnormal data are calculated, and a reporting analysis result is generated according to the data value change rate and the shaking rate.

And step S103, reporting the reporting analysis result.

The system monitors that the acquired data of the sensors meets fault alarm conditions, acquires abnormal data corresponding to time points meeting the set conditions, generates a reporting analysis result based on the acquired abnormal data, and packages and reports the generated reporting analysis result to the platform so as to facilitate a worker to check the analysis result to carry out corresponding maintenance. In one example, the system generates a report analysis result about the cable temperature data based on the acquired temperature anomaly data corresponding to the time point meeting the setting condition, packages the generated report analysis result about the cable temperature data, reports the package to the platform, and a worker can carry out corresponding maintenance on related faults of the cable temperature after checking.

As can be seen from the above, when it is detected that there is abnormal data, the abnormal data is saved, and a time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

Fig. 2 is a flowchart of a method for determining whether monitored data is abnormal data according to an embodiment of the present application, where, as shown in fig. 2, the method specifically includes:

step S201, when it is detected that the rate of change of the sensor collection value is greater than a preset rate of change and/or when it is detected that the magnitude of the sensor collection value is greater than a preset abnormal value, the abnormal data is stored, and a time point of generating the abnormal data is recorded.

Corresponding preset change rates and/or preset abnormal values are preset for different types of sensor acquisition values in the system, the system acquires data acquired by the sensors in real time and monitors the data, and when the change rate of the sensor acquisition values is larger than the preset change rate and/or the sensor acquisition values are larger than the preset abnormal values, the abnormal data are stored, and the time point of abnormal data generation is recorded. In one example, the condition that the sensor acquired data is abnormal data is determined that the change rate of the sensor acquired value is greater than the preset change rate, the preset change rate of temperature is 35%, the change rate of the temperature sensor acquired value monitored at two afternoon is 40%, the temperature data monitored at two afternoon is abnormal data, the abnormal data is stored, and the time point of abnormal data generation is recorded as two afternoon; in another example, the condition that the sensor collection data is abnormal data is determined that the change rate of the sensor collection value is greater than the preset change rate and the magnitude of the sensor collection value is greater than the preset abnormal value, the preset change rate of the tension is 30%, the preset abnormal value of the tension is 100, the change rate of the tension collection value monitored by eleven am is 35%, the tension collection value is 120, the change rate of the tension collection value is greater than the preset change rate of the tension and the magnitude of the tension collection value is greater than the preset abnormal value, the tension data monitored by eleven am is abnormal data, the abnormal data is stored, and the time point of abnormal data generation is recorded to be two afternoon.

Step S202, acquiring abnormal data corresponding to a time point meeting a set condition under the condition that the fault alarm condition is met, and generating a report analysis result according to the abnormal data corresponding to the time point meeting the set condition.

And step 203, reporting the report analysis result.

As can be seen from the above, when it is detected that there is abnormal data, the abnormal data is saved, and a time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

Fig. 3 is a flowchart of a method for obtaining abnormal data corresponding to a time point satisfying a set condition according to an embodiment of the present application, where, as shown in fig. 3, the method specifically includes:

step S301, when it is detected that abnormal data exists, the abnormal data is saved, and a time point of generating the abnormal data is recorded.

Step S302, under the condition that the size of the sensor acquisition value is larger than a preset alarm value, acquiring abnormal data corresponding to a time point within a fixed time length from the time point when the fault alarm condition is met, and generating a reporting analysis result according to the abnormal data corresponding to the time point when the setting condition is met.

The preset alarm value can be a standard alarm threshold value preset in the interior according to the type of the acquisition value of the sensor; the fixed duration may be a time period that is individually set according to different sensor types. Comparing the acquired value of the uploaded sensor acquired data with a corresponding preset alarm value, acquiring abnormal data corresponding to a time point within a fixed time length from the time point when the fault alarm condition is met when the acquired value of the sensor is judged to be larger than the corresponding preset alarm value, and generating an reporting analysis result according to the abnormal data corresponding to the time point when the set condition is met. In one example, the temperature preset alarm value is 60, the temperature fixed duration is 1 hour, the uploaded sensor acquisition data is monitored, the temperature sensor acquisition value is 70 when the temperature sensor acquisition value is monitored at the afternoon, the temperature sensor acquisition value is larger than the temperature preset alarm value, abnormal data corresponding to the time point within 1 hour from the time point of the afternoon are obtained, and the reporting analysis result is generated according to the abnormal data corresponding to the time point within 1 hour from the time point of the afternoon; in another example, when the magnitude of the sensor acquisition value is monitored to be larger than the preset alarm value, the fault degree of the sensor acquisition value is analyzed and judged, a set duration is determined according to the fault degree, abnormal data corresponding to a time point in the set duration from the time point when the fault alarm condition is met is obtained, and an reporting analysis result is generated according to the abnormal data corresponding to the time point when the set condition is met.

And step S303, reporting the reporting analysis result.

As can be seen from the above, when it is detected that there is abnormal data, the abnormal data is saved, and a time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

Fig. 4 is a flowchart of a method for generating reporting analysis results according to an embodiment of the present application, as shown in fig. 4, specifically including:

step S401, when it is detected that abnormal data exists, the abnormal data is saved, and a time point of generating the abnormal data is recorded.

Step S402, under the condition that the fault alarm condition is met, acquiring abnormal data corresponding to a time point meeting the setting condition, calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time point meeting the setting condition, and generating a reporting analysis result according to the data value change rate and the jitter rate.

The jitter rate may be a variable amount of network delay, among other things. The method comprises the steps of monitoring that a sensor acquisition value meets a fault alarm condition, obtaining abnormal data corresponding to a time point meeting a set condition, carrying out data analysis on the obtained abnormal data, calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time point meeting the set condition according to a preset calculation formula, and generating a report analysis result by a set method for generating the report analysis result based on the obtained data value change rate and the jitter rate. In one example, grouping abnormal data corresponding to time points meeting the setting conditions according to time, respectively calculating a data value change rate and a jitter rate corresponding to each grouping, acquiring a pre-generated analysis result table of different preset data value change rates and preset jitter rate combinations for specific sensor types, matching the data value change rate and the jitter rate of each grouping with the preset data value change rate and preset jitter rate combinations, and determining an analysis result of the preset data value change rate and preset jitter rate combinations obtained by matching as a reporting analysis result; the analysis result tables of different preset data value change rates and preset jitter rate combinations for the temperature sensor types are shown in the following table:

the analysis result table records the analysis results of different preset data value change rates and preset jitter rate combinations of the temperature sensor types, wherein the preset data value change rate is between 0 and 25 percent, the preset jitter rate is between 1 and 100ms, and the analysis result is in a good state; the change rate of the preset data value is between 0 and 25%, the preset jitter rate is more than 100ms, and the analysis result shows that the phenomenon of packet loss and line drop exists; the change rate of the preset data value is 25 percent and 40 percent, the preset shaking rate is 1 to 100ms, and the analysis result shows that the temperature of the cable is increased due to higher weather temperature; the change rate of the preset data value is 25 percent and 40 percent, the preset shaking rate is 100ms, the analysis result is packet loss and wire disconnection, and the temperature of the cable is increased due to higher weather temperature; the change rate of the preset data value is between 40 percent and 60 percent, the preset shaking rate is between 1 and 100ms, and the analysis result is that the temperature of the cable is too high due to short circuit; in another example, the data value change rate and the jitter rate of the abnormal data corresponding to the time point meeting the setting condition are calculated, the data value change rate and the preset jitter rate are compared, and the report analysis result is generated according to the range exceeding the preset data value change rate and the preset jitter rate.

And step S403, reporting the reporting analysis result.

As can be seen from the above, when it is detected that there is abnormal data, the abnormal data is saved, and a time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

Fig. 5 is a block diagram of a module structure of a cable monitoring method for reporting fault information provided by the embodiment of the present application, where the smart cable is used to execute the cable monitoring method for reporting fault information provided by the above embodiment, and has a functional module and beneficial effects corresponding to the execution method. As shown in fig. 5, the apparatus specifically includes:

an abnormal data storage module 101, configured to store abnormal data and record a time point when the abnormal data is generated when it is detected that the abnormal data exists;

the abnormal data acquisition module 102 is configured to acquire abnormal data corresponding to a time point when the set condition is met, in a case that the fault alarm condition is monitored to be met;

an analysis result generation module 103, configured to generate a report analysis result according to the abnormal data corresponding to the time point satisfying the setting condition;

and the analysis result reporting module 104 is configured to report the analysis result.

According to the scheme, when abnormal data are detected, the abnormal data are stored, and the time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result. According to the scheme, the monitored abnormal data are stored, the time point of abnormal data generation is recorded, when the monitored data meet the fault alarm condition, the abnormal data corresponding to the time point meeting the set condition are obtained, the reporting analysis result is generated according to the corresponding abnormal data, and the reporting of the reporting analysis result is carried out, so that the problems that a data reporting mode is still too simple, the efficiency is low, the intelligent degree is required to be further improved in the prior art are solved, the cable can directly report fault information, the intelligent degree of cable monitoring is further improved, and meanwhile, the fault reason can be reasonably analyzed and given according to the data before the fault occurs in the fault generation.

In one possible embodiment, the abnormal data saving module 101 is specifically configured to:

the change rate of the sensor acquisition value is monitored to be larger than a preset change rate; and/or the number of the groups of groups,

the magnitude of the sensor acquisition value is monitored to be larger than a preset abnormal value.

In one possible embodiment, the abnormal data acquisition module 102 is specifically configured to:

the sensor acquisition value is monitored to be larger than a preset alarm value.

In one possible embodiment, the abnormal data acquisition module 102 is further configured to:

and acquiring abnormal data corresponding to a time point within a fixed time length from the time point when the fault alarm condition is met, wherein the fixed time length is independently set according to different sensor types.

In one possible embodiment, the analysis result generating module 103 is specifically configured to:

calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time points meeting the setting conditions;

and generating a report analysis result according to the data value change rate and the jitter rate.

In a possible embodiment, the analysis result generating module 103 is further configured to:

grouping the abnormal data corresponding to the time points meeting the setting conditions, and respectively calculating the change rate and the jitter rate of the data value corresponding to each grouping.

In a possible embodiment, the analysis result generating module 103 is further configured to:

acquiring a pre-generated analysis result table of different preset data value change rates and preset jitter rate combinations aiming at specific sensor types;

matching the preset data value change rate and a preset jitter rate combination based on the data value change rate and the jitter rate;

and determining the analysis result of the preset data value change rate and the preset jitter rate combination obtained by matching as a reporting analysis result.

Fig. 6 is a schematic structural diagram of a cable monitoring device for reporting fault information according to an embodiment of the present application, where, as shown in fig. 6, the device includes a processor 201, a memory 202, an input device 203, and an output device 204; the number of processors 201 in the device may be one or more, one processor 201 being taken as an example in fig. 6; the processor 201, memory 202, input devices 203, and output devices 204 in the apparatus may be connected by a bus or other means, for example in fig. 6. The memory 202 is used as a computer readable storage medium for storing software programs, computer executable programs and modules, such as program instructions/modules corresponding to the cable monitoring method for reporting fault information in the embodiment of the present application. The processor 201 executes various functional applications of the device and data processing by running software programs, instructions and modules stored in the memory 202, that is, implements the cable monitoring method for reporting fault information described above. The input means 203 may be used to receive entered numeric or character information and to generate key signal inputs related to user settings and function control of the device. The output device 204 may include a display device such as a display screen.

The embodiment of the application also provides a storage medium containing computer executable instructions, which when executed by a computer processor, are used for executing a cable monitoring method for reporting fault information, the method comprises the following steps:

under the condition that abnormal data are detected to exist, the abnormal data are stored, and the time point of generating the abnormal data is recorded; under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition; and reporting the reporting analysis result.

It should be noted that, in the embodiment of the cable monitoring method device for reporting fault information, each unit and module included in the device are only divided according to the functional logic, but not limited to the above division, so long as the corresponding function can be realized; in addition, the specific names of the functional units are also only for distinguishing from each other, and are not used to limit the protection scope of the embodiments of the present application.

Note that the above is only a preferred embodiment of the present application and the technical principle applied. It will be understood by those skilled in the art that the embodiments of the present application are not limited to the particular embodiments described herein, but are capable of numerous obvious changes, rearrangements and substitutions without departing from the scope of the embodiments of the present application. Therefore, while the embodiments of the present application have been described in connection with the above embodiments, the embodiments of the present application are not limited to the above embodiments, but may include many other equivalent embodiments without departing from the spirit of the embodiments of the present application, and the scope of the embodiments of the present application is determined by the scope of the appended claims.

Claims (10)

1. The cable monitoring method for reporting fault information is applied to a cable monitoring node, and the cable monitoring node is integrated with an intelligent processing chip and is characterized by comprising the following steps:

under the condition that abnormal data are detected to exist, the abnormal data are stored, and the time point of generating the abnormal data is recorded;

under the condition that the fault alarm condition is met is monitored, acquiring abnormal data corresponding to a time point meeting the set condition, and generating a reporting analysis result according to the abnormal data corresponding to the time point meeting the set condition;

and reporting the reporting analysis result.

2. The cable monitoring method for reporting fault information according to claim 1, wherein the monitoring that abnormal data exists comprises:

the change rate of the sensor acquisition value is monitored to be larger than a preset change rate; and/or the number of the groups of groups,

the magnitude of the sensor acquisition value is monitored to be larger than a preset abnormal value.

3. The cable monitoring method for reporting fault information as claimed in claim 2, wherein the monitoring that the fault alarm condition is satisfied comprises:

the sensor acquisition value is monitored to be larger than a preset alarm value.

4. The cable monitoring method for reporting fault information according to any one of claims 1 to 3, wherein the obtaining abnormal data corresponding to a time point satisfying a set condition includes:

and acquiring abnormal data corresponding to a time point within a fixed time length from the time point when the fault alarm condition is met, wherein the fixed time length is independently set according to different sensor types.

5. The cable monitoring method for reporting fault information according to claim 4, wherein the generating a reporting analysis result according to the abnormal data corresponding to the time point satisfying the setting condition includes:

calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time points meeting the setting conditions;

and generating a report analysis result according to the data value change rate and the jitter rate.

6. The cable monitoring method for reporting fault information according to claim 5, wherein the calculating the data value change rate and the jitter rate of the abnormal data corresponding to the time point satisfying the setting condition includes:

grouping the abnormal data corresponding to the time points meeting the setting conditions, and respectively calculating the change rate and the jitter rate of the data value corresponding to each grouping.

7. The cable monitoring method for reporting fault information as claimed in claim 5, wherein the generating a report analysis result according to the data value change rate and the jitter rate includes:

acquiring a pre-generated analysis result table of different preset data value change rates and preset jitter rate combinations aiming at specific sensor types;

matching the preset data value change rate and a preset jitter rate combination based on the data value change rate and the jitter rate;

and determining the analysis result of the preset data value change rate and the preset jitter rate combination obtained by matching as a reporting analysis result.

8. The utility model provides a cable monitoring system of fault information reporting, is applied to cable monitoring node, cable monitoring node integration has intelligent processing chip, its characterized in that includes:

the abnormal data storage module is used for storing the abnormal data and recording the time point of generating the abnormal data under the condition that the abnormal data are detected to exist;

the abnormal data acquisition module is used for acquiring abnormal data corresponding to a time point meeting the set condition under the condition that the fault alarm condition is monitored;

the analysis result generation module is used for generating a reporting analysis result according to the abnormal data corresponding to the time points meeting the set conditions;

and the analysis result reporting module is used for reporting the reporting analysis result.

9. The cable monitoring equipment for reporting fault information comprises: one or more processors; storage means for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the cable monitoring method of fault information reporting as claimed in any one of claims 1 to 7.

10. A storage medium storing computer executable instructions which when executed by a computer processor are for performing the cable monitoring method of fault information reporting as claimed in any one of claims 1 to 7.